smiles stringlengths 1 994 ⌀ | instructions stringclasses 38 values | descriptions stringlengths 26 1.07k | image imagewidth (px) 224 300 |
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CC=O | Please describe the structure of this molecule in detail, including the number of carbon atoms and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 2 carbon atoms. The first carbon bears a methyl group (-CH3), and the second carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'acetaldehyde'. | |
CC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is the simplest aldehyde, consisting of a 2-carbon chain structure. The aldehyde functional group is located at the end of the carbon chain, which gives rise to its name 'acetaldehyde'. | |
CCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 3 carbon atoms. The first and second carbons are connected by a methylene group (-CH2-), and the third carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'propionaldehyde'. | |
CCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 3 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'propionaldehyde' is derived from propane. | |
CCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 4 carbon atoms. The first through third carbons are connected by methylene groups (-CH2-), and the fourth carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'butyraldehyde'. | |
CCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 4 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'butyraldehyde' is derived from butane. | |
CCCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 5 carbon atoms. The first through fourth carbons are connected by methylene groups (-CH2-), and the fifth carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'valeraldehyde'. | |
CCCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 5 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'valeraldehyde' is derived from pentane. | |
CCCCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 6 carbon atoms. The first through fifth carbons are connected by methylene groups (-CH2-), and the sixth carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'hexanal'. | |
CCCCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 6 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'hexanal' is derived from hexane. | |
CCCCCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 7 carbon atoms. The first through sixth carbons are connected by methylene groups (-CH2-), and the seventh carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'heptanal'. | |
CCCCCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 7 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'heptanal' is derived from heptane. | |
CCCCCCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 8 carbon atoms. The first through seventh carbons are connected by methylene groups (-CH2-), and the eighth carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'octanal'. | |
CCCCCCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 8 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'octanal' is derived from octane. | |
CCCCCCCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 9 carbon atoms. The first through eighth carbons are connected by methylene groups (-CH2-), and the ninth carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'nonanal'. | |
CCCCCCCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 9 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'nonanal' is derived from nonane. | |
CCCCCCCCCC=O | Please describe the structure of this molecule in detail, including the length of the carbon chain and the position of the aldehyde functional group. | This molecule is an aldehyde composed of 10 carbon atoms. The first through ninth carbons are connected by methylene groups (-CH2-), and the tenth carbon bears an aldehyde functional group (-CHO). Its IUPAC name is 'decanal'. | |
CCCCCCCCCC=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aldehyde functional group and carbon chain characteristics. | This molecule is an aldehyde with 10 carbon atoms, where the aldehyde functional group is located at the end of the carbon chain. The name 'decanal' is derived from decane. | |
C1=CC=C(C=C1)C=O | Please describe the structure of this molecule in detail, including the benzene ring and the position of the aldehyde functional group. | This molecule is an aromatic aldehyde where an aldehyde functional group (-CHO) is directly attached to a benzene ring. The benzene ring consists of 6 carbon atoms arranged in an aromatic ring structure. Its IUPAC name is 'benzaldehyde'. | |
C1=CC=C(C=C1)C=O | Please explain the process of deriving the IUPAC name for this molecule, considering the aromatic ring and aldehyde functional group characteristics. | This molecule is an aromatic aldehyde composed of a benzene ring and an aldehyde functional group. The aldehyde functional group is directly attached to one of the carbon atoms in the benzene ring. The name 'benzaldehyde' is derived from the combination of benzene and aldehyde. | |
C1CC1 | How many carbon atoms are present in this ring structure? | This molecule contains 3 carbon atoms in its ring structure. | |
C1CC1 | What is the IUPAC name for this molecule based on the number of carbon atoms in the ring? | The IUPAC name is 'cyclopropane' because it has 3 carbon atoms in a ring structure. | |
C1CC1 | What type of structure is this molecule? Is it a chain or a ring? | This is a ring structure, not a chain. | |
C1CC1 | How would you name this molecule following IUPAC rules for cyclic compounds? | Following IUPAC rules, this molecule is named 'cyclopropane' because it has 3 carbon atoms in a ring structure. | |
C1CCC1 | How many carbon atoms are present in this ring structure? | This molecule contains 4 carbon atoms in its ring structure. | |
C1CCC1 | What is the IUPAC name for this molecule based on the number of carbon atoms in the ring? | The IUPAC name is 'cyclobutane' because it has 4 carbon atoms in a ring structure. | |
C1CCC1 | What type of structure is this molecule? Is it a chain or a ring? | This is a ring structure, not a chain. | |
C1CCC1 | How would you name this molecule following IUPAC rules for cyclic compounds? | Following IUPAC rules, this molecule is named 'cyclobutane' because it has 4 carbon atoms in a ring structure. | |
C1CCCC1 | How many carbon atoms are present in this ring structure? | This molecule contains 5 carbon atoms in its ring structure. | |
C1CCCC1 | What is the IUPAC name for this molecule based on the number of carbon atoms in the ring? | The IUPAC name is 'cyclopentane' because it has 5 carbon atoms in a ring structure. | |
C1CCCC1 | What type of structure is this molecule? Is it a chain or a ring? | This is a ring structure, not a chain. | |
C1CCCC1 | How would you name this molecule following IUPAC rules for cyclic compounds? | Following IUPAC rules, this molecule is named 'cyclopentane' because it has 5 carbon atoms in a ring structure. | |
C1CCCCC1 | How many carbon atoms are present in this ring structure? | This molecule contains 6 carbon atoms in its ring structure. | |
C1CCCCC1 | What is the IUPAC name for this molecule based on the number of carbon atoms in the ring? | The IUPAC name is 'cyclohexane' because it has 6 carbon atoms in a ring structure. | |
C1CCCCC1 | What type of structure is this molecule? Is it a chain or a ring? | This is a ring structure, not a chain. | |
C1CCCCC1 | How would you name this molecule following IUPAC rules for cyclic compounds? | Following IUPAC rules, this molecule is named 'cyclohexane' because it has 6 carbon atoms in a ring structure. | |
C1CCCCCC1 | How many carbon atoms are present in this ring structure? | This molecule contains 7 carbon atoms in its ring structure. | |
C1CCCCCC1 | What is the IUPAC name for this molecule based on the number of carbon atoms in the ring? | The IUPAC name is 'cycloheptane' because it has 7 carbon atoms in a ring structure. | |
C1CCCCCC1 | What type of structure is this molecule? Is it a chain or a ring? | This is a ring structure, not a chain. | |
C1CCCCCC1 | How would you name this molecule following IUPAC rules for cyclic compounds? | Following IUPAC rules, this molecule is named 'cycloheptane' because it has 7 carbon atoms in a ring structure. | |
C1CCCCCCC1 | How many carbon atoms are present in this ring structure? | This molecule contains 8 carbon atoms in its ring structure. | |
C1CCCCCCC1 | What is the IUPAC name for this molecule based on the number of carbon atoms in the ring? | The IUPAC name is 'cyclooctane' because it has 8 carbon atoms in a ring structure. | |
C1CCCCCCC1 | What type of structure is this molecule? Is it a chain or a ring? | This is a ring structure, not a chain. | |
C1CCCCCCC1 | How would you name this molecule following IUPAC rules for cyclic compounds? | Following IUPAC rules, this molecule is named 'cyclooctane' because it has 8 carbon atoms in a ring structure. | |
CC1CC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 3 carbon atoms in its ring structure. | |
CC1CC1 | What is the name of the substituent group attached to the ring? | The substituent group is a methyl group (CH3). | |
CC1CC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'methylcyclopropane' because it has a 3-carbon ring with a methyl substituent. | |
CC1CC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (3 carbons = cyclopropane)
Step 2: Identify the substituent (1 carbon = methyl)
Step 3: Combine the names with the substituent first: methylcyclopropane | |
CC1CC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CC1CC1 | How many carbon atoms are in the substituent group? | The substituent group contains 1 carbon atom. | |
CC1CC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'methylcyclopropane'. | |
CC1CC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (3 = propane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (methyl)
4. Combine the names: methylcyclopropane | |
CCC1CC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 3 carbon atoms in its ring structure. | |
CCC1CC1 | What is the name of the substituent group attached to the ring? | The substituent group is an ethyl group (CH2CH3). | |
CCC1CC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'ethylcyclopropane' because it has a 3-carbon ring with an ethyl substituent. | |
CCC1CC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (3 carbons = cyclopropane)
Step 2: Identify the substituent (2 carbons = ethyl)
Step 3: Combine the names with the substituent first: ethylcyclopropane | |
CCC1CC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CCC1CC1 | How many carbon atoms are in the substituent group? | The substituent group contains 2 carbon atoms. | |
CCC1CC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'ethylcyclopropane'. | |
CCC1CC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (3 = propane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (ethyl)
4. Combine the names: ethylcyclopropane | |
CCCC1CC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 3 carbon atoms in its ring structure. | |
CCCC1CC1 | What is the name of the substituent group attached to the ring? | The substituent group is a propyl group (CH2CH2CH3). | |
CCCC1CC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'propylcyclopropane' because it has a 3-carbon ring with a propyl substituent. | |
CCCC1CC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (3 carbons = cyclopropane)
Step 2: Identify the substituent (3 carbons = propyl)
Step 3: Combine the names with the substituent first: propylcyclopropane | |
CCCC1CC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CCCC1CC1 | How many carbon atoms are in the substituent group? | The substituent group contains 3 carbon atoms. | |
CCCC1CC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'propylcyclopropane'. | |
CCCC1CC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (3 = propane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (propyl)
4. Combine the names: propylcyclopropane | |
CCCCC1CC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 3 carbon atoms in its ring structure. | |
CCCCC1CC1 | What is the name of the substituent group attached to the ring? | The substituent group is a butyl group (CH2CH2CH2CH3). | |
CCCCC1CC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'butylcyclopropane' because it has a 3-carbon ring with a butyl substituent. | |
CCCCC1CC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (3 carbons = cyclopropane)
Step 2: Identify the substituent (4 carbons = butyl)
Step 3: Combine the names with the substituent first: butylcyclopropane | |
CCCCC1CC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CCCCC1CC1 | How many carbon atoms are in the substituent group? | The substituent group contains 4 carbon atoms. | |
CCCCC1CC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'butylcyclopropane'. | |
CCCCC1CC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (3 = propane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (butyl)
4. Combine the names: butylcyclopropane | |
CC1CCC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 4 carbon atoms in its ring structure. | |
CC1CCC1 | What is the name of the substituent group attached to the ring? | The substituent group is a methyl group (CH3). | |
CC1CCC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'methylcyclobutane' because it has a 4-carbon ring with a methyl substituent. | |
CC1CCC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (4 carbons = cyclobutane)
Step 2: Identify the substituent (1 carbon = methyl)
Step 3: Combine the names with the substituent first: methylcyclobutane | |
CC1CCC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CC1CCC1 | How many carbon atoms are in the substituent group? | The substituent group contains 1 carbon atom. | |
CC1CCC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'methylcyclobutane'. | |
CC1CCC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (4 = butane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (methyl)
4. Combine the names: methylcyclobutane | |
CCC1CCC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 4 carbon atoms in its ring structure. | |
CCC1CCC1 | What is the name of the substituent group attached to the ring? | The substituent group is an ethyl group (CH2CH3). | |
CCC1CCC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'ethylcyclobutane' because it has a 4-carbon ring with an ethyl substituent. | |
CCC1CCC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (4 carbons = cyclobutane)
Step 2: Identify the substituent (2 carbons = ethyl)
Step 3: Combine the names with the substituent first: ethylcyclobutane | |
CCC1CCC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CCC1CCC1 | How many carbon atoms are in the substituent group? | The substituent group contains 2 carbon atoms. | |
CCC1CCC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'ethylcyclobutane'. | |
CCC1CCC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (4 = butane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (ethyl)
4. Combine the names: ethylcyclobutane | |
CCCC1CCC1 | How many carbon atoms are in the ring structure of this molecule? | This molecule has 4 carbon atoms in its ring structure. | |
CCCC1CCC1 | What is the name of the substituent group attached to the ring? | The substituent group is a propyl group (CH2CH2CH3). | |
CCCC1CCC1 | What is the IUPAC name for this molecule based on the ring size and substituent? | The IUPAC name is 'propylcyclobutane' because it has a 4-carbon ring with a propyl substituent. | |
CCCC1CCC1 | Please explain step by step how to derive the IUPAC name for this molecule. | Step 1: Identify the main ring structure (4 carbons = cyclobutane)
Step 2: Identify the substituent (3 carbons = propyl)
Step 3: Combine the names with the substituent first: propylcyclobutane | |
CCCC1CCC1 | What is the main structure of this molecule - is it a ring or a chain? | This is a ring structure with a substituent. | |
CCCC1CCC1 | How many carbon atoms are in the substituent group? | The substituent group contains 3 carbon atoms. | |
CCCC1CCC1 | What is the complete IUPAC name for this molecule? | The complete IUPAC name is 'propylcyclobutane'. | |
CCCC1CCC1 | Can you break down the process of naming this molecule following IUPAC rules? | 1. Count the carbon atoms in the ring (4 = butane)
2. Add 'cyclo-' prefix for the ring structure
3. Identify the substituent (propyl)
4. Combine the names: propylcyclobutane |
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