Elements with same functional group have same chemical properties. They possess different physical properties.
No, isomers do not always have to share the same functional group. Isomers are compounds with the same molecular formula but different structures, which can result in differences in physical and chemical properties. This structural variation may include differences in functional groups.
The functional group of -OCH3 is a methoxy group, which consists of an oxygen atom bonded to a methyl group. It is commonly found in organic compounds as a substituent and plays a role in determining the compound's chemical reactivity and properties.
Homologous series of organic compounds are families of compounds that have similar chemical properties due to having the same functional group and a repeating pattern of carbon atoms. Members of the series will have the same general formula and exhibit a trend in physical properties as the number of carbon atoms increases. Examples include alkanes, alkenes, and alkynes.
The functional group contained in a thiol is the sulfhydryl group, which is a sulfur atom bonded to a hydrogen atom. Thiols are organic compounds that contain this sulfhydryl group, which gives them their characteristic properties such as strong odor, reactivity, and ability to form disulfide bonds.
The functional group is the portion of a molecule that is active in a chemical reaction and determines the properties of many organic compounds. It is responsible for the characteristic chemical reactions and behaviors of a compound. Examples include hydroxyl (-OH), carbonyl (C=O), and amino (-NH2) groups.
No, isomers do not always have to share the same functional group. Isomers are compounds with the same molecular formula but different structures, which can result in differences in physical and chemical properties. This structural variation may include differences in functional groups.
n.An atom or group of atoms, such as a carboxyl group, that replaces hydrogen in an organic compound and that defines the structure of a family of compounds and determines the properties of the family.Read more: functional-group
The functional group of -OCH3 is a methoxy group, which consists of an oxygen atom bonded to a methyl group. It is commonly found in organic compounds as a substituent and plays a role in determining the compound's chemical reactivity and properties.
The functional group model is a way to classify organic compounds based on the specific group of atoms (functional group) that defines their chemical properties and reactions. It allows chemists to predict how a molecule will behave based on the presence of certain functional groups, such as alcohols, carboxylic acids, or amines.
A homologous series is a family of organic compounds that: *have the same general formula. *have similar chemical properties and *show a gradual increase in physical properties such as melting and boiling point.
Homologous series, in chemistry can be defined as a series of organic compounds with a similar general formula, possessing similar chemical properties due to the presence of the same functional group, and shows a gradation in physical properties as a result of increase in molecular size and mass
Homologous series of organic compounds are families of compounds that have similar chemical properties due to having the same functional group and a repeating pattern of carbon atoms. Members of the series will have the same general formula and exhibit a trend in physical properties as the number of carbon atoms increases. Examples include alkanes, alkenes, and alkynes.
Functional group
Organic compounds with an oxygen hydrogen functional group are either alcohols or carboxylic acids
A functional group is a specific arrangement of atoms within a molecule that is responsible for its characteristic chemical properties. Functional groups can influence the reactivity, physical properties, and behavior of the molecule they are attached to, determining how it will interact with other molecules in chemical reactions.
The functional group contained in a thiol is the sulfhydryl group, which is a sulfur atom bonded to a hydrogen atom. Thiols are organic compounds that contain this sulfhydryl group, which gives them their characteristic properties such as strong odor, reactivity, and ability to form disulfide bonds.
The functional group is the portion of a molecule that is active in a chemical reaction and determines the properties of many organic compounds. It is responsible for the characteristic chemical reactions and behaviors of a compound. Examples include hydroxyl (-OH), carbonyl (C=O), and amino (-NH2) groups.