solve question 24 with complete explanation within 15-30 mins and get multiple upvotes 21. What is the magnitude and direction of the electric field at point Z in the diagram below? (5.8 x 105 N/Cright)- 2.0 x 10-Cq, - 8.0 x 10-C60 cm30 cm22. Determine the magnitude and direction of the electric field at location A in the diagrams below.Q13 µCQ23 µC-4 µCQ3-2 µCQ28 µC-5µCElectric Potential Difference23. What is the speed of an electron that has 13.3 eV of kinetic energy? (answer: 2.16x106 m/s)24. An alpha particle traveling 7.15x10 m/s is accelerated (speeds up) through a potential difference witha magnitude of 15.3 V. What is the final speed of the alpha particle? (8.11x104 m/s)1 cm

We will use the work-energy theorem in this problem and solve for the final speed of the alpha…

Answered: 24. An alpha particle traveling 7.15x10…

24. An alpha particle traveling 7.15x10 m/s is accelerated (speeds up) through a potential difference with a magnitude of 15.3 V. What is the final speed of the alpha particle? (8.11x10ª m/s)

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Question

solve question 24 with complete explanation within 15-30 mins and get multiple upvotes

21. What is the magnitude and direction of the electric field at point Z in the diagram below? (5.8 x 105 N/C
right)
- 2.0 x 10-C
q, - 8.0 x 10-C
60 cm
30 cm
22. Determine the magnitude and direction of the electric field at location A in the diagrams below.
Q1
3 µC
Q2
3 µC
-4 µC
Q3
-2 µC
Q2
8 µC
-5µC
Electric Potential Difference
23. What is the speed of an electron that has 13.3 eV of kinetic energy? (answer: 2.16x106 m/s)
24. An alpha particle traveling 7.15x10 m/s is accelerated (speeds up) through a potential difference with
a magnitude of 15.3 V. What is the final speed of the alpha particle? (8.11x104 m/s)
1 cm

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