3) Between the parallel plates, a load of m = 6.4x10-¹⁴ g remained stationary under 20 V voltage as shown in the figure. a) Find the electric field between the plates. b) Find the size of the constant load between the plates.How many e-/e+does this charge contain?. c) Find the time and velocity of the particle striking plate B by reversing the plate and increasing the voltage to 2 times (40V). ç) When the plate is turned 90 ° to the left as in the figure and the external voltage is increased to 50V, determine the movement of the load and d) Find T
3) Between the parallel plates, a load of m = 6.4x10-¹⁴ g remained stationary under 20 V voltage as shown in the figure. a) Find the electric field between the plates. b) Find the size of the constant load between the plates.How many e-/e+does this charge contain?. c) Find the time and velocity of the particle striking plate B by reversing the plate and increasing the voltage to 2 times (40V). ç) When the plate is turned 90 ° to the left as in the figure and the external voltage is increased to 50V, determine the movement of the load and d) Find T
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter3: Two-dimensional Kinematics
Section: Chapter Questions
Problem 22PE: A farmer wants to fence off his four-sided plot of flat land. He measures the first three sides,...
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3) Between the parallel plates, a load of
m = 6.4x10-¹⁴ g remained stationary under 20 V voltage as shown in the figure.
a) Find the electric field between the plates.
b) Find the size of the constant load between the plates.How many e-/e+does this charge contain?.
c) Find the time and velocity of the particle striking plate B by reversing the plate and increasing the voltage to 2 times (40V).
ç) When the plate is turned 90 ° to the left as in the figure and the external voltage is increased to 50V, determine the movement of the load and
d) Find T
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