It is non linear with bond angles of ~ 127° and ~ 102° respectively, as for the polarity, I'd imagine it's polar, but because it's a radical, you can't really do the proper experiments. See related info. If you meant this as a compound and not a radical, it doesn't exist.
if molecular shape is symmatrical then its non-polar but if it is non symmatrical then its polar.
A dipole moment is defined as a measure of the molecular polarity of a compound; the magnitude of the partial charges on the ends of a molecule times the distance between them (in meters). In order for there to be a dipole moment the element must must have molecular polarity which results from molecules with a net imbalance of charge (often a result of differences in electronegativity). If the molecule has more than two atoms, both shape and bond polarity determines the molecular polarity. In general look for a difference in electronegativity of the elements of a molecule which results in polarity and thus a possible dipole moment. Note that molecular shape influence polarity so molecules with the same elements but a different shape (and vice versa) won't have the same dipole moment.
This molecule, like all other diatomic gas elements, is non-polar and has a rod-like shape.
The molecular geometry of a compound helps to determine polarity because, it indicates the number of lone pairs on a central atom thus giving it specified angles and polarity (only if there are lone pairs because if there are no lone pairs on the central atom, them it is non-polar).
Intermittent fasting (IF) is a dietary pattern and not a chemical compound, so it does not have a molecular structure that determines its polarity.
Polarity of HF is nonpolar and it's molecular shape is linear.
if molecular shape is symmatrical then its non-polar but if it is non symmatrical then its polar.
A dipole moment is defined as a measure of the molecular polarity of a compound; the magnitude of the partial charges on the ends of a molecule times the distance between them (in meters). In order for there to be a dipole moment the element must must have molecular polarity which results from molecules with a net imbalance of charge (often a result of differences in electronegativity). If the molecule has more than two atoms, both shape and bond polarity determines the molecular polarity. In general look for a difference in electronegativity of the elements of a molecule which results in polarity and thus a possible dipole moment. Note that molecular shape influence polarity so molecules with the same elements but a different shape (and vice versa) won't have the same dipole moment.
Molecular polarity can affect a molecule's interactions with other molecules. In biological systems, polar molecules tend to interact with water and other polar molecules, while nonpolar molecules tend to interact with other nonpolar molecules. This can influence behaviors such as solubility, membrane permeability, and binding to specific receptors.
This molecule, like all other diatomic gas elements, is non-polar and has a rod-like shape.
The molecular geometry of a compound helps to determine polarity because, it indicates the number of lone pairs on a central atom thus giving it specified angles and polarity (only if there are lone pairs because if there are no lone pairs on the central atom, them it is non-polar).
Formaldehyde has a nonpolar trigonal planar molecule.
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Fluorodiiodoborane
A sulfur molecule has zero polarity.
Yes.
Size and shape. However, chemical properties are usually more important.