Respuesta :
Answer:
a) # = 21,116 10¹⁹ photons , b) R = 4,099 10⁷ m , c) I = 4.66 10¹⁸ photons / m²
Explanation:
a) In this problem we need to know the energy of each photon and the total emitted power
Let's start with the Planck equation
E = h f
c =λ f
E = h c / λ
E = 6.63 10⁻³⁴ 3 10⁸/600 10⁻⁹
E = 3,315 10⁻¹⁹ J
This is the energy of a photon
The definition of power is
P = W / t
Work is equal to energy change
P = E / t
E = 70.0 1
[tex]E_{total}[/tex] = 70 J
This is the total energy emitted
Let's use a rule of proportions to find the number of photons
# = [tex]E_{total}[/tex] / E
# = 70 / 3,315 10⁻¹⁹
# = 21,116 10¹⁹ photons
b) The definition of intensity is
I = P / A
P = I A
We want an intensity
I = 1 photon / cm²
The area of a sphere is
A = 4π r²
P = I 4π R²
R = √ P / 4π I
The power is equal to the number of photons per energy of each photon emitted per unit of time
R = √ (# [tex]E_{total}[/tex] / 4π I)
Intensity is
I = 1 photon / cm² (100 cm / 1m) 2 = 1 10⁴ photon / m²
R = √ (21,116 10¹⁹ / 4π 10⁴)
R = √ (16.80 10¹⁴)
R = 4,099 10⁷ m
c) we calculate the intensity
A = 4π R²
A = 4π 1.9²
A = 45.36 m²
I = P / A
I = 21,116 10¹⁹ / 45.36
I = 4.66 10¹⁸ photons / m²
