Elements in the same group have similar properties because they have the same number of electrons in their outermost shell
The four functional groups are hydroxyl (-OH), carbonyl (C=O), carboxyl (-COOH), and amino (-NH2). These groups are common in organic molecules and determine the chemical properties and reactivity of the compounds they are part of.
The chemical properties of substituted hydrocarbons can differ from the original hydrocarbons due to the presence of functional groups. Functional groups can affect properties such as boiling point, reactivity, and solubility, leading to distinct chemical behaviors in substituted hydrocarbons compared to their non-substituted counterparts.
All functional groups are specific arrangements of atoms within a molecule that are responsible for the characteristic chemical properties of that molecule. They typically include an atom or group of atoms that imparts reactivity and specific chemical behavior to the molecule in which they are present.
The functional groups largely determine the physical and chemical properties of an organic compound. These groups are responsible for the reactivity, solubility, boiling/melting points, and other properties of the compound. Additionally, the type and arrangement of atoms in the compound's backbone also play a significant role in determining its properties.
Elements with similar properties are displayed in columns, called groups, on the periodic table. This arrangement allows elements with similar chemical behavior to be grouped together. Elements in the same group have the same number of valence electrons, which is the main factor determining an element's chemical properties.
The groups have equal number of valence electrons. The elements in same groups have same chemical properties.
The properties of chemical elements have a periodic trend.
Families of elements with similar chemical properties are called "groups" or "families" on the periodic table. Elements within the same group typically have the same number of valence electrons, which gives them similar reactivity and chemical properties.
The four functional groups are hydroxyl (-OH), carbonyl (C=O), carboxyl (-COOH), and amino (-NH2). These groups are common in organic molecules and determine the chemical properties and reactivity of the compounds they are part of.
The chemical properties of substituted hydrocarbons can differ from the original hydrocarbons due to the presence of functional groups. Functional groups can affect properties such as boiling point, reactivity, and solubility, leading to distinct chemical behaviors in substituted hydrocarbons compared to their non-substituted counterparts.
The groups on the periodic table help you recognize chemical properties of a substance.
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Except noble gases the groups of elements in periodic table have the similar chemical properties but not the physical.
Because the elements that have similar properties are arranged in groups - or 'periods'.
sulfosaltsnitratesboratestungstatesmolybdatesphosphatesarsenatesvanadates
All functional groups are specific arrangements of atoms within a molecule that are responsible for the characteristic chemical properties of that molecule. They typically include an atom or group of atoms that imparts reactivity and specific chemical behavior to the molecule in which they are present.
In the periodic table, the elements are grouped according to their properties. Elements in a group has an equal number of valence electrons. So the elements in a group have most common chemical properties.