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Singlet Radiative Phosphorescence Lifetime Formula

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Singlet Radiative Phosphorescence Lifetime of a population is the time measured for the number of excited molecules to decay exponentially to N/e of the original population. Check FAQs

ζ4 o = \frac{1}{R p}

ζ4_o - Singlet Radiative Phosphorescence Lifetime?R_p - Rate of Phosphorescence?

Singlet Radiative Phosphorescence Lifetime Example

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Here is how the Singlet Radiative Phosphorescence Lifetime equation looks like with Values.

Here is how the Singlet Radiative Phosphorescence Lifetime equation looks like with Units.

Here is how the Singlet Radiative Phosphorescence Lifetime equation looks like.

6.3E-8 = \frac{1}{15750}

6.3E-8s = \frac{1}{15750mol/L*s}

6.3E-8 = \frac{1}{15750}

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Singlet Radiative Phosphorescence Lifetime Solution

Follow our step by step solution on how to calculate Singlet Radiative Phosphorescence Lifetime?

FIRST Step Consider the formula

ζ4 o = \frac{1}{R p}

Next Step Substitute values of Variables

∴

ζ4 o = \frac{1}{15750mol/L*s}

Next Step Convert Units

∴

ζ4 o = \frac{1}{1.6E+7mol/m³*s}

Next Step Prepare to Evaluate

∴

ζ4 o = \frac{1}{1.6E+7}

Next Step Evaluate

∴

ζ4 o = 6.34920634920635E-08s

LAST Step Rounding Answer

∴

ζ4 o = 6.3E-8s

Singlet Radiative Phosphorescence Lifetime Formula Elements

Variables

Singlet Radiative Phosphorescence Lifetime

Singlet Radiative Phosphorescence Lifetime of a population is the time measured for the number of excited molecules to decay exponentially to N/e of the original population.

Symbol: ζ4_o

Measurement: TimeUnit: s

Note: Value can be positive or negative.

Formulas to find Singlet Radiative Phosphorescence Lifetime

Rate of Phosphorescence

Rate of Phosphorescence is the rate at which induced emission occurs.

Symbol: R_p

Measurement: Reaction RateUnit: mol/L*s

Note: Value can be positive or negative.

Formulas to find Rate of Phosphorescence

Other formulas in Emission Spectroscopy category

Go Fluorescence Quantum Yield

φ fl = \frac{K rad}{K rad + R IC + K ISC + K q}

Go Fluoroscence Quantum Yield given Phosphorescence Quantum Yield

φ FL = φ ph \cdot (\frac{K f \cdot [M S1]}{K p \cdot [M T]})

Go Phosphorescence Quantum Yield

φ p = \frac{K rad}{K rad + K NR}

Go Phosphorescence Quantum Yield given Intersystem Quantum Yield

φ ph_ISC = (\frac{K p}{I a}) \cdot ({(\frac{I a \cdot φ_ISC}{K TTA})}^{\frac{1}{2}})

How to Evaluate Singlet Radiative Phosphorescence Lifetime?

Singlet Radiative Phosphorescence Lifetime evaluator uses Singlet Radiative Phosphorescence Lifetime = 1/Rate of Phosphorescence to evaluate the Singlet Radiative Phosphorescence Lifetime, The Singlet Radiative Phosphorescence Lifetime is the inverse of rate of Phosphorescence or radiative emission. It measures the decay time. Singlet Radiative Phosphorescence Lifetime is denoted by ζ4_o symbol.

How to evaluate Singlet Radiative Phosphorescence Lifetime using this online evaluator? To use this online evaluator for Singlet Radiative Phosphorescence Lifetime, enter Rate of Phosphorescence (R_p) and hit the calculate button.

FAQs on Singlet Radiative Phosphorescence Lifetime

What is the formula to find Singlet Radiative Phosphorescence Lifetime?

The formula of Singlet Radiative Phosphorescence Lifetime is expressed as Singlet Radiative Phosphorescence Lifetime = 1/Rate of Phosphorescence. Here is an example- 6.3E-8 = 1/15750000.

How to calculate Singlet Radiative Phosphorescence Lifetime?

With Rate of Phosphorescence (R_p) we can find Singlet Radiative Phosphorescence Lifetime using the formula - Singlet Radiative Phosphorescence Lifetime = 1/Rate of Phosphorescence.

Can the Singlet Radiative Phosphorescence Lifetime be negative?

Yes, the Singlet Radiative Phosphorescence Lifetime, measured in Time can be negative.

Which unit is used to measure Singlet Radiative Phosphorescence Lifetime?

Singlet Radiative Phosphorescence Lifetime is usually measured using the Second[s] for Time. Millisecond[s], Microsecond[s], Nanosecond[s] are the few other units in which Singlet Radiative Phosphorescence Lifetime can be measured.

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