Mindtap For Herman's Delmar's Standard Textbook Of Electricity, 2 Terms Printed Access Card (mindtap Course List)
7th Edition
ISBN: 9781337900621
Author: Stephen L. Herman
Publisher: Cengage Learning
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Textbook Question
Chapter 11, Problem 1RQ
Conduction in a liquid depends on the movement of _________________.
Expert Solution & Answer
To determine
The particles on which conduction in a liquid depends upon.
Answer to Problem 1RQ
The conduction in a liquid depends upon the movement of ions.
Explanation of Solution
Unlike a metallic conductor, the conduction in a liquid does not depend on the flow of individual electrons. It depends on a charged atom called an ion.
Atoms with electron deficiency are called positive ions while those with electron surplus are called negative ions.
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Chapter 11 Solutions
Mindtap For Herman's Delmar's Standard Textbook Of Electricity, 2 Terms Printed Access Card (mindtap Course List)
Ch. 11 - 1. Conduction in a liquid depends on the movement...Ch. 11 - What is a negative ion?Ch. 11 - 3. What is a positive ion?
Ch. 11 - Name three basic substances that can be used to...Ch. 11 - What is an electrolyte?Ch. 11 - 6. What is used to hold a sulfate ion together?
Ch. 11 - What is the negative terminal of a power source...Ch. 11 - Prob. 8RQCh. 11 - What determines the thickness of the coating...Ch. 11 - What is electrolysis?
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- 1. In the following closed-loop system, a PD controller of the form K(s + 5) is used. Design the gain K such that the system achieves an overshoot of 16%. Calculate the settling time and peak time for the PD controlled system. Compensator R(s) + E(s) Plant 1 C(s) K(s+Zc) (s+1)(s+2)(s+5)arrow_forwardFind Voarrow_forward3. Use MATLAB to generate the Nyquist plot for the following system. Then, apply the Nyquist stability criterion to determine the range of K values that ensure the stability of the closed-loop system. R(s)+ K C(s) (s+2) 1 (s + 4)(s+6)arrow_forward
- 4. Please find the stability margins from the following Bode diagrams. Bode Diagram Phase (deg) Magnitude (dB) 50 -100 -90 -135 -180 -270 10" 10° Frequency (rad/sec) 10'arrow_forward2. Please use asymptotes to draw the Bode diagrams of the following transfer function. Please label the axes to show the cut-off frequencies and key values on vertical axes and label each asymptote with its slope. G(s) s+10 s(s²+10s+100)arrow_forwardFind Voarrow_forward
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