Answered: A moving particle encounters an… | bartleby

Related questions

Question

A moving particle encounters an external electric field that decreases its kinetic energy from 9790 ev to 6720 eV as the particle
moves from position A to position B. The electric potential at A is -59.0 V. and that at B is +14.0 V.Determine the charge of the
particle. Include the algebraic sign (+ or-) with your answer.
Higher
potential
Lower
potential
Number
Units

Expert Solution

Trending now

This is a popular solution!

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

A 42.0-nC charge is placed at the origin and a 74.0-nC charge is placed on the +x-axis, 2.20 cm from the origin. a. What is the electric potential at a point on the +x-axis 3.40 cm from the origin? b. How much work does it take for an external agent to move a 45.0-nC charge from a point on the +x-axis, 3.40 cm from the origin to a point halfway between the 42.0-nC and 74.0-nC charges?
There are two charges along the x-axis. q1 = 2.1 nC at x1 = 9.6 m q2 = 8 nC at x2 = 1.6 m What is the electric potential at the origin? Your answer should be in Volts. 1 nC = 10-9 C
A +2 C point charge gains 10 J of kinetic energy as it moves from point A to point B. What is the change in electric potential as the particle moves from A to B?
A moving particle encounters an external electric field that decreases its kinetic energy from 9140 eV to 5710 eV as the particle moves from position A to position B. The electric potential at A is -63.0 V, and that at B is +10.0 V. Determine the charge of the particle. Include the algebraic sign (+ or -) with your answer.
3. Four charges are at the corners of a square of side length 1 µm. Four charges are q1 = -4 nC, 92 = 4 nC, q3 = 4 nC and q4 = -4 nC. You may put the charges in any order. Find the electric potential at the center of the square. What is the total electric potential energy of the system?
Six negative point charges and two positive point charges are arranged in a circle as shown in the figure. The charges have equal magnitude. The magnitude of the electric potential generated by each charge is 120 V at the origin. What is the net electric potential generated by all the charges at the origin O? 90 y -Q Fig. A Answer: Net potential Answer: Net potential Volts Volts
Consider two separate systems with four charges of the same magnitude q = 16 µC arranged in the vertexes of a square of length h = 35 cm, see the picture below. Calculate the electric potential at the center of the square (points A and C) and at the middle of the bottom side of the square (points B and D). h A. C. h B D -4 The potential at point A, VA = 2324567.7 x Units V The potential at point B, Ve = 2378380.6 Units V The potential at point C, Vc =0 Units V The potential at point D, V, = -908380.8: v Units v How much work is required to move a -12 µC charge from point A to point B? The work required, W = -0.64575 xUnits J How much work is required to move a -12 µC charge from point C to point D? Units J The work required, Wc-p = 10.90
I need help on question 10?
A moving particle encounters an external electric field that decreases its kinetic energy from 9930 eV to 8130 eV as the particle moves from position A to position B. The electric potential at A is -59.0 V, and that at B is +13.0 V. Determine the charge of the particle. Include the algebraic sign (+ or -) with your answer. Number i Textbook and Medi Units Lower potential Higher potential VB
9. The two charges in Figure are separated by d = 2.00 cm. Find the electric potential at (a) point A and (b) point B, which is halfway between the charges. d d 60.0° B d -15.0 nC 27.0 nC