Liquid or gas.
forces between the molecules are weak compared to the covalent bonds between the molecules. Very little heat energy is required to improve the intermolecular forces.
very volatile
low boiling and melting points.
therefore at room temperatures they are mostly liquids (sometimes gas)
liquids and gasesare the usual states for a covalent bond at room temperature.
The usual state of a covalent compound (at room temperature) is liquid.
This is actually a rather vague question. Bonds remain the same unless the temperature is high enough to break them. The physical state of a covalent bond is one of unequally shared electrons, that's pretty much it. In a carbon dioxide molecule, for example, the shared valence electrons spend more time with the oxygen nuclei than with the carbon nucleus.
liquids or gases
covalent
liquids and gasesare the usual states for a covalent bond at room temperature.
The usual state of a covalent compound (at room temperature) is liquid.
This is actually a rather vague question. Bonds remain the same unless the temperature is high enough to break them. The physical state of a covalent bond is one of unequally shared electrons, that's pretty much it. In a carbon dioxide molecule, for example, the shared valence electrons spend more time with the oxygen nuclei than with the carbon nucleus.
Ask your Chemistry teacher about this.
liquids or gases
covalent
A fluorine atom forms a covalent bond with another fluorine atom to produce the fluorine molecule which is gaseous at room temperature.
The bond Is Covalent which means it is formed from 2 non-metals reacting to form a molecule. The bond is very strong and when at room temperature the molecules are often gas or liquid however they can be found as solids at room temperature that melt very easily. Hope that answered it in a detailed way. Harrison Hall. Young Genius.
The covalent compounds do not exist as ions but they exist as moleculesThey exist at room temperature, as liquids or gases. However, a few compounds also exist in the solid state e.g. urea, sugar, etc.The melting and boiling points of covalent compounds are generally lowCovalent compounds are generally insoluble or less soluble in water and in other polar solventsThese are poor conductors of electricity in the fused or dissolved stateSince the covalent bond is localized in between the nuclei of atoms, it is directional in natureA covalent bond can be formed in different ways. When a bond is formed by mutual sharing of one pair of electrons it is known as a 'single covalent bond', or simply 'a single bond'. When a bond is developed due to mutual sharing of more than one pairs of electrons it is termed as 'multiple covalent bond'. Such bonds can be a double covalent bond or a triple covalent bond.
A fluorine atom forms a covalent bond with another fluorine atom to produce the fluorine molecule which is gaseous at room temperature.
At room temperature and pressure there are gaseous, liquid and solid molecular covalent compounds. Examples Gas: methane, CH4, ethylene, C2H4 Liquid benzene, C6H6, ethanol, C2H5OH Solid: naphthalene, C10H8 The giant molecule covalent compounds such as silica are solids
room temperature instrinsic s.c as a conducter