Dipole moment measures the polarity of the molecule that is measure of the separation of two opposite charges. Electronegativity difference between the atoms results dipole moment.
Dipole moment of bond is equal to the product of the magnitude of charge and distance between them (charges).
It is given by:
where,
= dipole moment
= magnitude of charge whether partially positive or negative charge.
= distance between charges.
Since, bond distance is larger than the bond distance, because of large partial charge on the atoms of ; from the definition of dipole moment (1.08) has smaller dipole moment than (1.82).
Answer:
it's a mixture
Explanation:
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Convert 0.47g 2-naphthol to mols. mol = g/molar mass.
Using the coefficients in the balanced equation, convert mols 2-naphthol to mols 2-butoxynaphthalene then you have to Convert mol 2-butoxynaphthalene to grams. g = mols x molar mass. This is the theoretical yield.
B it is very acidic is the answer
The equation that scientists could use to find the wavelength of the emission lines of the hydrogen atom would be that of Balmer.
The wavelength of the emission lines of the hydrogen atom can be derived using the Balmer series:
1/λ
Where λ = wavelength, = Rydberg constant, and n = level of the original orbital.
The equation becomes applicable in getting the wavelength of emitted light when electrons in hydrogen atoms transition from higher (n) orbital to lower orbital (2) levels.
More on the Balmer series can be found here: brainly.com/question/5295294