Need help on a-d please Two point charges, q_1 = +0.60 C and q_2 = +2.0 C are se

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Need help on a-d please

Two point charges, q_1 = +0.60 C and q_2 = +2.0 C are separated by a distance of 3.0 m. What is the the electric field strength at the position of q_1 due to the presence of q_2? The electric field strength at the position of q_1 due to q_2 is N/c. Two point charges, q_1 = +0.60 C and q_2 = +2.0 C are separated by a distance of 3.0 m. What is the potential energy of q_1 due to the presence of q_2? Take the potential to be zero infinitely far away from q_2 The potential energy of q_1 due to q_2 is Two point charges, q_1 = +0.60 C and q_2=+2.0 C are separated by a distance of 3.0 m. What is the electric potential at the position of q_1 due to the presence of q2? Take the potential to be zero infinitely far away from q2. The electric potential at the position of q_1 due to q2 is Two point charges, q_1 = +0.60 C and q_2=+2.0 C are separated by a distance of 3.0 m. How much work is done in moving q_1 infinitely far away from q_2? If q_1 is allowed to move infinitely far away from q_2, the work done on it will be

Explanation / Answer

a) E ( at q1 due to q2) = k( 2)/3^2 = 2 x 10*9 N/C

b) Electrical potenial energy (U) = K( 0.60)(2) /3= 3.6 x 10^9 J

c) Electric potential (V) at q1 = k( 2)/ 3= 6 x 10^9 V apprx

d)work done in moving q1 to infinity = 3.6 x 10^9 - 0 ( as the PE at infinty is 0) = 3.6 x 10^9 J

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