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∙ 7y agoIonic compounds typically have higher melting and boiling points compared to molecular compounds due to the strong electrostatic forces between oppositely charged ions. Ionic compounds are typically soluble in water and conduct electricity when dissolved or in molten state, whereas molecular compounds are often insoluble in water and do not conduct electricity in any state.
Ionic compounds typically have higher melting and boiling points compared to molecular compounds, as they have strong electrostatic forces between oppositely charged ions. Ionic compounds also tend to be soluble in water and conduct electricity when dissolved, due to the presence of free ions. In contrast, molecular compounds have lower melting and boiling points, are often insoluble in water, and do not conduct electricity in their pure state.
Ionic compounds typically have higher melting and boiling points compared to molecular compounds, due to the strong electrostatic forces between ions in the crystal lattice. Ionic compounds also tend to conduct electricity when dissolved in water or in molten state, while molecular compounds do not conduct electricity in either state. Additionally, ionic compounds are often composed of a metal and a nonmetal, whereas molecular compounds are composed of nonmetals.
Molecular
A compound has characteristic properties because it is made up of specific elements in a fixed ratio according to its chemical formula. This fixed ratio determines the unique chemical and physical characteristics that distinguish the compound from other substances. These properties include melting point, boiling point, reactivity, and appearance.
Many macroscopic properties of a compound depend on its chemical structure and the arrangement of its molecules. Factors such as intermolecular forces, molecular weight, and polarity can impact properties like boiling point, melting point, solubility, and conductivity. These properties can provide important information about the behavior and characteristics of a compound.
Molecular compounds generally do not conduct electricity and have low melting points.
Ionic compounds typically have higher melting and boiling points compared to molecular compounds, as they have strong electrostatic forces between oppositely charged ions. Ionic compounds also tend to be soluble in water and conduct electricity when dissolved, due to the presence of free ions. In contrast, molecular compounds have lower melting and boiling points, are often insoluble in water, and do not conduct electricity in their pure state.
A homogeneous mixture, such as a solution, can sometimes be difficult to distinguish from a compound because in both cases the components are uniformly mixed at the molecular level.
The properties of a compound depend on the types of atoms present, the arrangement of those atoms, and the strength of the bonds between them. Factors such as molecular structure, polarity, and intermolecular forces also influence the properties of a compound.
The smallest unit of a molecular compound with the properties of that compound is a molecule. It consists of two or more atoms that are chemically bonded together in a specific arrangement that determines the compound's properties.
The representative unit in a molecular compound is a molecule, which consists of two or more atoms bonded together. This unit represents the smallest particle of the compound that retains the chemical properties of the substance.
A compound's properties are determined by the arrangement and bonding of its ingredients at the molecular level. The physical and chemical properties of a compound can be very different from those of its individual ingredients due to interactions such as bonding, polarity, and structure. This leads to unique properties that are characteristic of the compound itself.
The molar ratio of hydrogen to oxygen in the compound is 1:1. This means the compound is water (H2O), which has a molecular mass of 18.0 g/mol, not 34.0 g/mol. The given molecular mass of 34.0 g/mol does not match the properties of water.
No, a brittle compound does not necessarily indicate it is a molecular compound. Brittle compounds can be either molecular or ionic, depending on their chemical bonding. Brittle molecular compounds typically have covalent bonds, while brittle ionic compounds have ionic bonds.
Ionic compounds typically have higher melting and boiling points compared to molecular compounds, due to the strong electrostatic forces between ions in the crystal lattice. Ionic compounds also tend to conduct electricity when dissolved in water or in molten state, while molecular compounds do not conduct electricity in either state. Additionally, ionic compounds are often composed of a metal and a nonmetal, whereas molecular compounds are composed of nonmetals.
Yes. Aspirin is a molecular compound.
Molecular compound