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What is the energy of a photon of infrared radiation with a frequency of 2.53 × 1012 Hz? Planck’s constant is 6.63 × 10–34 J • s. A. 1.68 × 1023 J B. 1.68 × 1047 J C. 1.68 × 10–21 J D. 1.68 × 10–45 J
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4 votes

What is the energy of a photon of infrared radiation with a frequency of 2.53 × 1012 Hz? Planck’s constant is



6.63 × 10–34 J • s.

A. 1.68 × 1023 J      

B. 1.68 × 1047 J      C. 1.68 × 10–21 J       D. 1.68 × 10–45 J
User Mvantellingen
by
7.4k points

2 Answers

6 votes

Answer:

C on edge

Step-by-step explanation:

User Vermotr
by
7.7k points
4 votes

Answer : The energy of a photon of infrared radiation is,
1.68* 10^(-21)J

Solution :

Formula used :


E=h* \\u

where,

E = energy of a photon = ?

h = Planck's constant =
6.63* 10^(-34)Js


\\u = frequency of a photon =
2.53* 10^(12)Hz=2.53* 10^(12)s^(-1)

Now put all the given values in this formula, we get the energy of a photon.


E=(6.63* 10^(-34)Js)* (2.53* 10^(12)s^(-1))


E=1.68* 10^(-21)J

Therefore, the energy of a photon of infrared radiation is,
1.68* 10^(-21)J

User Wingnut
by
8.4k points
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