Given i ( t ) = 5 cos ( 400 t − 120 ° ) A , determine the period of the current and the frequency in Hertz.

Question

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Answer 1

Textbook Question

Chapter 8, Problem 1P

Given i ( t ) = 5 cos ( 400 t − 120 ° ) A , determine the period of the current and the frequency in Hertz.

Expert Solution & Answer

To determine

The Period of the current and the Frequency in Hertz.

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec

Although,

f=1Tplugging valuef=115.70×10−3f=63.69 Hz

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Answer 2

Textbook Question

Chapter 8, Problem 1P

Given i ( t ) = 5 cos ( 400 t − 120 ° ) A , determine the period of the current and the frequency in Hertz.

Expert Solution & Answer

To determine

The Period of the current and the Frequency in Hertz.

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec

Although,

f=1Tplugging valuef=115.70×10−3f=63.69 Hz

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Textbook Question

Chapter 8, Problem 1P

Given i ( t ) = 5 cos ( 400 t − 120 ° ) A , determine the period of the current and the frequency in Hertz.

Expert Solution & Answer

To determine

The Period of the current and the Frequency in Hertz.

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec

Although,

f=1Tplugging valuef=115.70×10−3f=63.69 Hz

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Answer 4

Textbook Question

Chapter 8, Problem 1P

Given i ( t ) = 5 cos ( 400 t − 120 ° ) A , determine the period of the current and the frequency in Hertz.

Expert Solution & Answer

To determine

The Period of the current and the Frequency in Hertz.

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec

Although,

f=1Tplugging valuef=115.70×10−3f=63.69 Hz

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

The Period of the current and the Frequency in Hertz.

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec

Although,

f=1Tplugging valuef=115.70×10−3f=63.69 Hz

Answer 8

Expert Solution & Answer

To determine

The Period of the current and the Frequency in Hertz.

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec

Although,

f=1Tplugging valuef=115.70×10−3f=63.69 Hz

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

The Period of the current and the Frequency in Hertz.

Answer 12

Answer to Problem 1P

Frequency (f) = 63.66 Hz

Time period (T) =15.7 m/sec

Answer 13

Explanation of Solution

Given Information:

i(t)=5 cos (400t-120°)

In general, ω is the angular speed - the rate change of angle (as in a circular motion). Frequency is 1/T or the number of periodic oscillations or revolutions during a given time period.

It is known that

ω=2πT

In the given equation of current

ω=400 rad/sec

Hence,

400=2πTT=2π400T=15.70×10−3T=15.70 msec