A potential difference of 300 V is applied to a series connection of two capacitors of capacitances C1 = 2.00 F and C2 = 8.00 μ F. What are (a) charge q 1 and (b) potential difference V 1 on capacitor 1 and (c) q 2 and (d) V 2 on capacitor 2? The charged capacitors are then disconnected from each other and from the battery. Then the capacitors are reconnected with plates of the same signs wired together (the battery is not used). What now are (e) q 1 , (f) V 1 , (g) q 2 , and (h) V 2 ? Suppose, instead , the capacitors charged in part (a) are reconnected with plates of opposite signs wired together.What noware (i) q 1 ,(j) V 1 ,(k) q 2 , and (I) V 2 ?
A potential difference of 300 V is applied to a series connection of two capacitors of capacitances C1 = 2.00 F and C2 = 8.00 μ F. What are (a) charge q 1 and (b) potential difference V 1 on capacitor 1 and (c) q 2 and (d) V 2 on capacitor 2? The charged capacitors are then disconnected from each other and from the battery. Then the capacitors are reconnected with plates of the same signs wired together (the battery is not used). What now are (e) q 1 , (f) V 1 , (g) q 2 , and (h) V 2 ? Suppose, instead , the capacitors charged in part (a) are reconnected with plates of opposite signs wired together.What noware (i) q 1 ,(j) V 1 ,(k) q 2 , and (I) V 2 ?
A potential difference of 300 V is applied to a series connection of two capacitors of capacitances C1 = 2.00 F and C2 = 8.00μF. What are (a) charge q1 and (b) potential difference V1 on capacitor 1 and (c) q2 and (d) V2 on capacitor 2? The charged capacitors are then disconnected from each other and from the battery. Then the capacitors are reconnected with plates of the same signs wired together (the battery is not used). What now are (e) q1, (f) V1, (g) q2, and (h) V2? Suppose, instead, the capacitors charged in part (a) are reconnected with plates of opposite signs wired together.What noware (i) q1,(j) V1,(k) q2, and (I) V2?
4
Problem 4) A particle is being pushed up a smooth slot by a rod. At the instant when 0 = rad,
the angular speed of the arm is ė = 1 rad/sec, and the angular acceleration is = 2 rad/sec².
What is the net force acting on the 1 kg particle at this instant? Express your answer as a vector
in cylindrical coordinates. Hint: You can express the radial coordinate as a function of the angle
by observing a right triangle. (20 pts)
Ꮎ
2 m
Figure 3: Particle pushed by rod along vertical path.
4
Problem 4) A particle is being pushed up a smooth slot by a rod. At the instant when 0 = rad,
the angular speed of the arm is ė = 1 rad/sec, and the angular acceleration is = 2 rad/sec².
What is the net force acting on the 1 kg particle at this instant? Express your answer as a vector
in cylindrical coordinates. Hint: You can express the radial coordinate as a function of the angle
by observing a right triangle. (20 pts)
Ꮎ
2 m
Figure 3: Particle pushed by rod along vertical path.
please solve and answer the question correctly. Thank you!!
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How To Solve Any Circuit Problem With Capacitors In Series and Parallel Combinations - Physics; Author: The Organic Chemistry Tutor;https://www.youtube.com/watch?v=a-gPuw6JsxQ;License: Standard YouTube License, CC-BY