Fill in all the missing values. Refer to the formulas that follow. Resistance Capacitance Time constant Total time 150 k Ω 100 μ F 350 k Ω 35 s 350 pF 10 s 0.05 μ F 1.2 M Ω 0.47 μ F 12 μ F 0.05 s 86 k Ω 1.5 s 120 k Ω 470 pF 250 nF 100 ms 8 μ F 150 μ s 100 k Ω 150 ms 33 k Ω 4 μ F τ = R C R = τ C C = τ R T o t a l t i m e = τ × 5

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Answer 1

Textbook Question

Chapter 19, Problem 1PP

Fill in all the missing values. Refer to the formulas that follow.

Resistance	Capacitance	Time constant	Total time
150 k Ω	100 μ F
350 k Ω			35 s
	350 pF		10 s
	0.05 μ F
1.2 M Ω	0.47 μ F
	12 μ F	0.05 s
86 k Ω			1.5 s
120 k Ω	470 pF
	250 nF		100 ms
	8 μ F		150 μ s
100 k Ω		150 ms
33 k Ω	4 μ F

τ = R C R = τ C C = τ R

T o t a l t i m e = τ × 5

Expert Solution & Answer

To determine

The missing values in the table.

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

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Answer 2

Textbook Question

Chapter 19, Problem 1PP

Fill in all the missing values. Refer to the formulas that follow.

Resistance	Capacitance	Time constant	Total time
150 k Ω	100 μ F
350 k Ω			35 s
	350 pF		10 s
	0.05 μ F
1.2 M Ω	0.47 μ F
	12 μ F	0.05 s
86 k Ω			1.5 s
120 k Ω	470 pF
	250 nF		100 ms
	8 μ F		150 μ s
100 k Ω		150 ms
33 k Ω	4 μ F

τ = R C R = τ C C = τ R

T o t a l t i m e = τ × 5

Expert Solution & Answer

To determine

The missing values in the table.

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

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Answer 3

Textbook Question

Chapter 19, Problem 1PP

Fill in all the missing values. Refer to the formulas that follow.

Resistance	Capacitance	Time constant	Total time
150 k Ω	100 μ F
350 k Ω			35 s
	350 pF		10 s
	0.05 μ F
1.2 M Ω	0.47 μ F
	12 μ F	0.05 s
86 k Ω			1.5 s
120 k Ω	470 pF
	250 nF		100 ms
	8 μ F		150 μ s
100 k Ω		150 ms
33 k Ω	4 μ F

τ = R C R = τ C C = τ R

T o t a l t i m e = τ × 5

Expert Solution & Answer

To determine

The missing values in the table.

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

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Answer 4

Textbook Question

Chapter 19, Problem 1PP

Fill in all the missing values. Refer to the formulas that follow.

Resistance	Capacitance	Time constant	Total time
150 k Ω	100 μ F
350 k Ω			35 s
	350 pF		10 s
	0.05 μ F
1.2 M Ω	0.47 μ F
	12 μ F	0.05 s
86 k Ω			1.5 s
120 k Ω	470 pF
	250 nF		100 ms
	8 μ F		150 μ s
100 k Ω		150 ms
33 k Ω	4 μ F

τ = R C R = τ C C = τ R

T o t a l t i m e = τ × 5

Expert Solution & Answer

To determine

The missing values in the table.

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

The missing values in the table.

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

Answer 8

Expert Solution & Answer

To determine

The missing values in the table.

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

The missing values in the table.

Answer 12

Answer to Problem 1PP

Resistance	Capacitance	Time Constant	Total Time
150 kΩ	100 µF	15 s	75 s
350 kΩ	20 µF	7s	35 s
142.85 MΩ	350 pF	0.05 s	0.25 s
40 MΩ	0.05 µF	2 s	10 s
1.2 MΩ	0.47 µF	0.564 s	2.82 s
4166.67 Ω	12 µF	0.05 s	0.25 s
86 kΩ	3.488 µF	0.3 s	1.5 s
120 kΩ	470 pF	56.4 µs	282 µs
80 kΩ	250 nF	20 ms	100 ms
3.75 Ω	8 µF	30 µs	150 µs
100 kΩ	1.5 µF	150 ms	750 ms
33 kΩ	4 µF	132 ms	660 ms

Answer 13

Explanation of Solution

We are given the following formulae,

τ=RC ... (1)R=τC ... (2)C=τR ... (3)Time=5τ ... (4)

(1) τ=RC=(150kΩ)(100μF)=15sTime=5τ=5(15s)=75s(2) τ=Time5=355=7s C= τR= 7350k=20μs(3) Time=5τ=5(0.05)=0.25s R= τC= 0.05350×10−12=142.85MΩ(4) τ=Time5=105=2s R= τC= 20.05×10−6=40MΩ(5) τ=RC=(1.2MΩ)(0.47μF)=0.564sTime=5τ=5(0.564s)=2.82s(6) Time=5τ=5(0.05)=0.25s R= τC= 0.512×10−6=4166.67Ω

(7)τ=Time5=1.55=0.3s C= τR= 0.386×103=3.488μF(8) τ=RC=(120kΩ)(470pF)=56.4μsTime=5τ=5(56.4μs)=282μs(9) τ=Time5=100ms5=20ms R= τC= 20×10−3250×10−9=80kΩ(10) τ=Time5=150μs5=30μs R= τC= 30×10−68×10−6=3.75Ω(11) Time=5τ=5(150ms)=750msC= τR= 150×10−3100×103=1.5μF(12)τ=RC=(33kΩ)(4μF)=132msTime=5τ=5(15s)=660ms

Answer 14

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Answer to Problem 1PP

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