49 B+ 29 C (ii) Find out the amount of the work done to separate the charges at infinite distance.
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A: Answer:Option E
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Q: electron mass, assume that the proton remains at rest. By calculating the work done on the electron…
A: Initial speed of electron (vi) = 295000 msFinal speed of electron (v) = 3×295000= 885000 ms
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A: Given data: The electric field is E=375 N/C. The distance traveled by electron is r=3.20 cm.
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A: Concept used: The configuration energy (or) energy to assemble the charges is the electrostatic…
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A: Given value--- Area = 6 cm2. We have to find--- charge on capacitor for both conditions?
Q: = charges,
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- A bare helium nucleus has two positive charges and a mass of 6.64 x 10-27 kg. (a) Calculate its kinetic energy in joules at 7.20% of the speed of light. (b) What is this in electron volts? eV (c) What voltage would be needed to obtain this energy? VIn the image are two point charges, ?1=−70.0×10−6 C and ?2=50.0×10−6 C, separated by a distance ?1=0.100 m. Calculate the potential at point A positioned ?2=0.0400 m to the left of ?1.The nucleus of a helium atom contains two protons that are approximately 1 fm apart. How much work must be done by an external agent to bring the two charges from an infinite separation to a separation of 1.0 fm? -230 J -2.3 x 10-13 J 2.3 x 10-13 j 2.3 x 10-16 J
- you have two point charges half a meter apart. the charges have values of positive 1.0 microC and negative 2.0 microC. you want to move the charges apart to twice the distance between them, determine the amount of work needed just need to make sure i understood the question correctly and i followed through with the right method my answer that i got was 18 x 10^-3NHow to solve this question1. Two point charges are located on the x-axis, q1 = -e at x = 0 and q2 = te at X a. (a.) Find the work that must be done by an external force to bring point charge q3 = +e 2a. [Hint: The work W equals the difference between (i) the potential 2a and (ii) the potential energy when it is %3D from infinity to x = energy U associated with q3 when it is at x =