Datasets:

mm-reasoning

/

EMMA-test

like 0

Follow

mm-reasoning 4

test_1

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_82

test_2

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_15

test_3

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_4

test_4

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_95

test_5

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_36

test_6

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_32

test_7

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_29

test_8

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_18

test_9

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_14

test_10

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_87

test_11

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_70

test_12

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_12

test_13

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_76

test_14

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_55

test_15

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_5

test_16

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_28

test_17

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_30

test_18

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_65

test_19

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_78

test_20

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_72

test_21

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_690

test_22

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_955

test_23

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_921

test_24

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_948

test_25

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_868

test_26

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_803

test_27

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_701

test_28

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_818

test_29

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_890

test_30

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_731

test_31

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_1003

test_32

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_1034

test_33

The structure of D-(+)-glucose is <image_1>. The structure of L-(-)-glucose is <image_2>. <image_1> <image_2>

The structure of D-(+)-glucose is <image_1>. The structure of L-(-)-glucose is <image_2>. <image_1> <image_2> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

EXAMS-V

Multiple choice

chem_115

test_34

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_977

test_35

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_1001

test_36

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_670

test_37

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_946

test_38

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_805

test_39

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_763

test_40

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_668

test_41

One mole of a monoatomic real gas satisfies the equation $p(V-b)=RT$ where $b$ is a constant. The relationship of interatomic potential $V(r)$ and interatomic distance $r$ for the gas is given by <image_1>

One mole of a monoatomic real gas satisfies the equation $p(V-b)=RT$ where $b$ is a constant. The relationship of interatomic potential $V(r)$ and interatomic distance $r$ for the gas is given by <image_1> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

EXAMS-V

Multiple choice

chem_133

test_42

<image_1> Which points correspond to a melting/freezing equilibrium?

<image_1> Which points correspond to a melting/freezing equilibrium? A: 1 and 5 B: 1 and 3 C: 2 and 4 D: 6 and 7 E: 7 and 8 Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

MMMU

Multiple choice

chem_1159

test_43

P is the probability of finding the 1s electron of hydrogen atom in a spherical shell of infinitesimal thickness, dr, at a distance r from the nucleus. The volume of this shell is 4$\pi r^2$dr. The qualitative sketch of the dependence of P on r is <image_1>

P is the probability of finding the 1s electron of hydrogen atom in a spherical shell of infinitesimal thickness, dr, at a distance r from the nucleus. The volume of this shell is 4$\pi r^2$dr. The qualitative sketch of the dependence of P on r is <image_1> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

EXAMS-V

Multiple choice

chem_108

test_44

<image_1> Figure 29-1: Titration curve. Which of the following matches the titration curve shown in Figure 29-1?

<image_1> Figure 29-1: Titration curve. Which of the following matches the titration curve shown in Figure 29-1? A: A strong acid is titrated into a weak base. B: A strong acid is titrated into a strong base. C: A strong base is titrated into a weak acid. D: A strong base is titrated into a strong acid. E: A weak base is titrated into a weak acid. Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

MMMU

Multiple choice

chem_1162

test_45

<image_1> Which point corresponds to the critical point?

<image_1> Which point corresponds to the critical point? A: 1 B: 2 C: 5 D: 7 E: 9 Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

MMMU

Multiple choice

chem_1174

test_46

To spectrophotometrically determine the mass percent of cobalt in an ore containing cobalt and some inert materials, solutions with known [$Co^{2+}$] are prepared and the absorbance of each of the solutions is measured at the wavelength of optimum absorbance. The data are used to create a calibration plot, shown below. <image_1> A 0.630 g sample of the ore is completely dissolved in concentrated $HNO_3$(aq). The mixture is diluted with water to a final volume of 50.00 mL. Assume that all the cobalt in the ore sample is converted to $Co^{2+}$(aq). Calculate the number of moles of $Co^{2+}$(aq) in the 50.00 mL solution. Only write the result number, in the unit of 10^-4 mol.

To spectrophotometrically determine the mass percent of cobalt in an ore containing cobalt and some inert materials, solutions with known [$Co^{2+}$] are prepared and the absorbance of each of the solutions is measured at the wavelength of optimum absorbance. The data are used to create a calibration plot, shown below. <image_1> A 0.630 g sample of the ore is completely dissolved in concentrated $HNO_3$(aq). The mixture is diluted with water to a final volume of 50.00 mL. Assume that all the cobalt in the ore sample is converted to $Co^{2+}$(aq). Calculate the number of moles of $Co^{2+}$(aq) in the 50.00 mL solution. Only write the result number, in the unit of 10^-4 mol. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

MMMU

Open-ended

chem_1169

test_47

The \%yield of ammonia as a function of time in the reaction N_2(g) + 3H_2(g) \rightleftharpoons 2NH_3(g), \Delta H < 0 at (P, T_1) is given below. If this reaction is conducted at (P, T_2), with T_2 > T_1, the \%yield of ammonia as a function of time is represented by <image_1> <image_2>

The \%yield of ammonia as a function of time in the reaction N_2(g) + 3H_2(g) \rightleftharpoons 2NH_3(g), \Delta H < 0 at (P, T_1) is given below. If this reaction is conducted at (P, T_2), with T_2 > T_1, the \%yield of ammonia as a function of time is represented by <image_1> <image_2> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

EXAMS-V

Multiple choice

chem_119

test_48

The qualitative sketches I, II and III given below show the variation of surface tension with molar concentration of three different aqueous solutions of KCl, CH$_3$OH and CH$_3$(CH$_2$)$_{11}$OSO$_3^-$Na$^+$ at room temperature. The correct assignment of the sketches is <image_1>

The qualitative sketches I, II and III given below show the variation of surface tension with molar concentration of three different aqueous solutions of KCl, CH$_3$OH and CH$_3$(CH$_2$)$_{11}$OSO$_3^-$Na$^+$ at room temperature. The correct assignment of the sketches is <image_1> A: I: KCl $\quad$ II: CH$_3$OH $\quad$ III: CH$_3$(CH$_2$)$_{11}$OSO$_3^-$Na$^+$ B: I: CH$_3$(CH$_2$)$_{11}$OSO$_3^-$Na$^+$ $\quad$ II: CH$_3$OH $\quad$ III: KCl C: I: KCl $\quad$ II: CH$_3$(CH$_2$)$_{11}$OSO$_3^-$Na$^+$ $\quad$ III: CH$_3$OH D: I: CH$_3$OH $\quad$ II: KCl $\quad$ III: CH$_3$(CH$_2$)$_{11}$OSO$_3^-$Na$^+$ Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

EXAMS-V

Multiple choice

chem_126

test_49

AgNO_3 (aq.) was added to an aqueous KCl solution gradually and the conductivity of the solution was measured. The plot of conductance ($\Lambda$) versus the volume of AgNO_3 is <image_1>

AgNO_3 (aq.) was added to an aqueous KCl solution gradually and the conductivity of the solution was measured. The plot of conductance ($\Lambda$) versus the volume of AgNO_3 is <image_1> A: (P) B: (Q) C: (R) D: (S) Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Graph Reasoning

EXAMS-V

Multiple choice

chem_140

test_50

KI in acetone, undergoes S_N2 reaction with each of P, Q, R and S. The rates of the reaction vary as <image_1>

KI in acetone, undergoes S_N2 reaction with each of P, Q, R and S. The rates of the reaction vary as <image_1> A: P > Q > R > S B: S > P > R > Q C: P > R > Q > S D: R > P > S > Q Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

EXAMS-V

Multiple choice

chem_130

test_51

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1143

test_52

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1057

test_53

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1122

test_54

In the following reactions, the product S is <image_1>

In the following reactions, the product S is <image_1> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

EXAMS-V

Multiple choice

chem_142

test_55

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1101

test_56

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1118

test_57

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1075

test_58

The compounds P, Q and S were separately subjected to nitration using HNO_3/H_2SO_4 mixture. The major product formed in each case respectively, is <image_1> <image_2>

The compounds P, Q and S were separately subjected to nitration using HNO_3/H_2SO_4 mixture. The major product formed in each case respectively, is <image_1> <image_2> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

EXAMS-V

Multiple choice

chem_138

test_59

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1084

test_60

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1100

test_61

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1085

test_62

In the following reaction, <image_1> the structure of the major product 'X' is <image_2>

In the following reaction, <image_1> the structure of the major product 'X' is <image_2> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

EXAMS-V

Multiple choice

chem_147

test_63

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1123

test_64

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1097

test_65

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1142

test_66

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1119

test_67

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1067

test_68

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1120

test_69

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1116

test_70

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_254

test_71

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_490

test_72

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_283

test_73

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_506

test_74

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_496

test_75

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_478

test_76

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_183

test_77

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_458

test_78

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_472

test_79

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_234

test_80

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_420

test_81

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_520

test_82

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_272

test_83

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_230

test_84

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_383

test_85

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_341

test_86

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_285

test_87

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_474

test_88

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_499

test_89

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_432

test_90

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_969

test_91

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_160

test_92

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_619

test_93

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_990

test_94

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction.

<image_1> An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. The transition-state structure undergoes changes after the electron has been relocated or reacted. Which of the following options shows the structure after the change? Note: Disregard the arrows in the options. The selected option should represent the immediate product of the next step, not the final product of the reaction. A: <image_2> B: <image_3> C: <image_4> D: <image_5> Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation Pro

new_annotated

Multiple choice

chem_84

test_95

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1153

test_96

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image.

<image_1> In the transition-state structure shown in the image, calculate: Atom Count: Calculate the total number of atoms, excluding hydrogen. Assume R represents carbon. - Bond Count: Determine the total number of bonds in the structure, including single, double, and triple bonds but excluding those involving hydrogen. Note: Disregard arrows. Consider all components present in the transition-state structure shown in the image. Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Knowledge-based counting

new_annotated

Open-ended

chem_324

test_97

In the following reactions, the major product W is <image_1>

In the following reactions, the major product W is <image_1> A: A B: B C: C D: D Answer with the option's letter from the given choices and put the letter in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

EXAMS-V

Multiple choice

chem_128

test_98

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_640

test_99

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1>

Please provide the SMILES expression of the transition-state structure shown in the image, ignoring the arrows. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Structure Recognition

new_annotated

Open-ended

chem_951

test_100

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1>

An 'arrow-pushing' diagram is a common type of chemical image used to illustrate electron flow in mechanistic steps. Please provide the SMILES expression for the molecule after the electron has been relocated, as depicted in the image. <image_1> Answer the question using a single word or phrase and put the answer in one "\boxed{}". Please solve the problem step by step.

Chemistry

Reaction Simulation

new_annotated

Open-ended

chem_1151