a conducting sphere of radius 0.015 m carries a charge of +4.1 uC q1. what potential in megavlots at an arbitrary point

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a conducting sphere of radius 0.015 m carries a charge of +4.1 uC q1. what potential in megavlots at an arbitrary point inside the sphere? in a model of a hydrogen atom the electron travels in circular orbits around the proton. q2. what is the electric potential invoice due to the proton on an electron in an orbit with radius 1.25×10^-10 m? suppose two Parallel conducting plates are separated by 0.65 cm of airq1. find the maximum attainable potential Difference between the two parallel conducting plates and kill of vaults given the maximum sustainable electric fill strength in air to be three. timesdifference between the two parallel conducting plates and kill of vaults given the maximum sustainable electric fill strength in air to be 3. 0×1010^6 V/ m . assume the place are larger enough compared to their separation for the electric field between them to be uniform. V = ?
q1. what potential in megavlots at an arbitrary point inside the sphere?
in a model of a hydrogen atom the electron travels in circular orbits around the proton.
q2. what is the electric potential invoice due to the proton on an electron in an orbit with radius 1.25×10^-10 m?
suppose two Parallel conducting plates are separated by 0.65 cm of air
q1. find the maximum attainable potential Difference between the two parallel conducting plates and kill of vaults given the maximum sustainable electric fill strength in air to be three. timesdifference between the two parallel conducting plates and kill of vaults given the maximum sustainable electric fill strength in air to be 3. 0×1010^6 V/ m . assume the place are larger enough compared to their separation for the electric field between them to be uniform. V = ?