Answer:
a) excitation radiation
Explanation:
the fluorescence quantum efficiency of the fluorescing molecule:
Molecular structure and its chemical environment influence whether a substance will fluoresce and the intensities of these emissions. The quantum yield or quantum efficiency is used to measure the probability that a molecule will fluoresce or phosphoresce. For fluorescence and phosphorescence is the ratio of the number of molecules that luminescent to the total number of excited molecules. For highly fluoresce molecules, the quantum efficiency approaches to one.Molecules that do not fluoresce have quantum efficiencies that approach to zero.
the molar mass of the compound
Influence of a halogen substitution decreases fluorescence as the molar mass of the halogen increases. This is an example of the “heavy atom effect” which suggest that the probability of intersystem crossing increases as the size of the molecule increases. As the molar mass of the substituted compound increases, the relative intensity of the fluorescence decreases.
The absorptivity of the compound
he molar absorptivity, which measures the probability that a transition will occur
Answer : The concentration of nitrate ions is 0.450 m.
Solution : Given,
Molarity of
= 0.225 m
The balanced ionic equation is,
![Sr(NO_3)_2\rightarrow Sr^{+2}+2NO^-_3](https://tex.z-dn.net/?f=Sr%28NO_3%29_2%5Crightarrow%20Sr%5E%7B%2B2%7D%2B2NO%5E-_3)
From the reaction, we conclude that the 1 mole of
produces 2 moles of
ions. That means the concentration of nitrate ions is twice the value of
.
then, 0.225 m of
gives 2 × 0.225 of
ions
Now the concentration of
ions is equal to 0.450 m.
Answer:
it is expected that highest melting points correspond to compound with high molecular weight with more force of attractions within the moleules
Explanation: