. Calculate the period of each of the following values of frequency: a. 1 Hz b. 60 Hz c. 500 Hz d. 1 kHz e. 200 kHz f. 5 MHz

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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**Exercise: Calculating the Period of Frequencies**

Calculate the period of each of the following frequencies:

a. 1 Hz  
b. 60 Hz  
c. 500 Hz  
d. 1 kHz  
e. 200 kHz  
f. 5 MHz  

**Explanation:** The period \( T \) of a frequency \( f \) is calculated using the formula \( T = \frac{1}{f} \).

**Examples:**

- For 1 Hz, \( T = \frac{1}{1} = 1 \) second.
- For 60 Hz, \( T = \frac{1}{60} \approx 0.0167 \) seconds.
- For 500 Hz, \( T = \frac{1}{500} = 0.002 \) seconds.
- For 1 kHz, \( T = \frac{1}{1000} = 0.001 \) seconds.
- For 200 kHz, \( T = \frac{1}{200,000} = 0.000005 \) seconds.
- For 5 MHz, \( T = \frac{1}{5,000,000} = 0.0000002 \) seconds.
Transcribed Image Text:**Exercise: Calculating the Period of Frequencies** Calculate the period of each of the following frequencies: a. 1 Hz b. 60 Hz c. 500 Hz d. 1 kHz e. 200 kHz f. 5 MHz **Explanation:** The period \( T \) of a frequency \( f \) is calculated using the formula \( T = \frac{1}{f} \). **Examples:** - For 1 Hz, \( T = \frac{1}{1} = 1 \) second. - For 60 Hz, \( T = \frac{1}{60} \approx 0.0167 \) seconds. - For 500 Hz, \( T = \frac{1}{500} = 0.002 \) seconds. - For 1 kHz, \( T = \frac{1}{1000} = 0.001 \) seconds. - For 200 kHz, \( T = \frac{1}{200,000} = 0.000005 \) seconds. - For 5 MHz, \( T = \frac{1}{5,000,000} = 0.0000002 \) seconds.
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