Asked by Jane
Actually, I have 3 questions to solve. I know the 1st one requires Coulomb's constant, but I just can't get the formula to work. Ditto for the formulas for the other 2 questions.
1) A 6.3 μC point charge and a −1.7 μC point charge are separated by a distance of 0.00023 m. What is the electric potential energy of this system?
2) A charged particle moving at a speed of 175 m/s due east, through a magnetic field of 5.00 mT pointing straight up toward the sky, experiences a force of 4.25 μN directed due north. What is the charge on the particle? Be sure to indicate the sign.
3) A wire etched onto a computer chip carries a current of 0.000000041 A. In 1.8 milliseconds, how many electrons flow past a point on the wire?
1) A 6.3 μC point charge and a −1.7 μC point charge are separated by a distance of 0.00023 m. What is the electric potential energy of this system?
2) A charged particle moving at a speed of 175 m/s due east, through a magnetic field of 5.00 mT pointing straight up toward the sky, experiences a force of 4.25 μN directed due north. What is the charge on the particle? Be sure to indicate the sign.
3) A wire etched onto a computer chip carries a current of 0.000000041 A. In 1.8 milliseconds, how many electrons flow past a point on the wire?
Answers
Answered by
Jane
I finally got #3!
There are no AI answers yet. The ability to request AI answers is coming soon!
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.