The electron and proton of a hydrogen atom are separated by a distance of approximately 5.3*10-11 m. Charge of electron (de)= -1.61*10-1⁹ C charge of proton (qp)= 1.61*10-19 C, electric constant (K₂)= 8.988*109 Nm²/C². Find the electric force exerted by the proton on electron. Submit your answer in exponential form with four decimal places.
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We are given a hydrogen atom. There is a proton and electron in hydrogen atom. We are given charge on proton and electron. We are also given distance between them. We find electric force between them.
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- A charge of +8.35mC is placed in a region where an electric field is present. If the magnitude of the electric field is 869.8 N/C, what is the magnitude of the electric force on this charge in units of Newtons?A simple electroscope to measure electrical charges is made up of two cork spheres covered with metal sheets, each sphere weighs 1.25x10-4 kg and hangs from a 12 cm long thread, when equal electrical charges are added to the spheres, the force of electrical repulsion moves them away and the angle between the wires indicates the magnitude of the electric charge, if the equilibrium angle between the wires is 500, what is the magnitude of the electric charge?Three charges are placed in a line. Charge A is at x = -0.0500 m, Charge B is at the origin, and Charge C is at x = 0.0800 m. Based on the charges given below, what is the magnitude of the net force on Charge B in newtons?Qa = 4.00×10−54.00×10-5 C, Qb = 3.00×10−53.00×10-5 C, Qc = −3.00×10−5-3.00×10-5 C
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