First we have to calculate the force which is responsible to the acceleration in the particle and then equate with the F=ma.
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Question 5 Two point charges of 48 nC and -70 nC are held fixed on an...
Two point charges of 34 nC and -55 nC are held fixed on an x axis, at the origin and at x = 103 cm, respectively. A particle with a charge of 76 μC is released from rest at x= 57 cm. If the initial acceleration of the particle has a magnitude of 102 km/s2, what is the particle's mass?
Q#1 Create the free-body diagram for particle 3.(just need free body diagram for particle 3) Three particles are fixed on an x axis. Particle 1 of charge q1 is at x = - a, and particle 2 of charge q2 is at x = + a. If their net electrostatic force on particle 3 of charge + Q is to be zero, what must be the ratio q1/q2 when particle 3 is at x = 1.50a? Important: Assume that the...
A positively charged particle Q1=35 nC is held fixed at the origin A negatively charged particle O2=24 nC of mass m = 8.5 ug is located a distance d = 45cm from the positively charged particle along the positive x-axis.Part (a) What is the magnitude of the electric force, F in newtons, that acts on the charge Q2? (b) What is the direction of the force on charge Q2?Part (c) what is the magnitude of the acceleration, a in m/s2, experienced...
Two point charges, –8.0 nC and +16 nC , are held fixed a distance 0.60 m apart. Assume that both charges lie on x-axis, for the -8.0 nC x = 0 and for the +16 nC charge x = 0.60 m . Where can a +20 nC charge be placed so that the net force on it is zero? Repeat part A if the third charge is –20 nC.
Two point charges, –8.0 nC and +16 nC , are held fixed a distance 0.60 m apart. Assume that both charges lie on x-axis, for the -8.0 nC x = 0 and for the +16 nC charge x = 0.60 m . Part A Where can a +20 nC charge be placed so that the net force on it is zero? Part B Repeat part A if the third charge is –20 nC.
Three point charges are arranged in a line. Charge q3+5.00 nC and is located at the origin Charge q,--3.00 nC and is located at' +4.00 cm. Charge q! is located at x +2.00 cm What is the magnitude of qı if the net force on q3 1s zero? point) Oo.750 nC O0.520 nC O0.975 nC O0.000 nC 4 Two identical point charges in outer space are held apart at a distance D. As soon as the charges are released, each...
A positively charged particle Q1 = 15 nC is held fixed at the origin. A negatively charged particle Q2 = -4 nC of mass m = 3.5 ug is located a distance d = 25 cm along the positive x - axis from the positively charged particle. a) What is the magnitude of the electric force, F in newtons, that acts on the charge Q2? b) What is the direction of the force on charge Q2? c) What is the...
A positively charged particle Q1 = 35 nC is held immobile at the origin. A negatively charged particle Q1=-16 nC of mass m=8.5 μg s located a distance d=15 cm along the positive x-axis from the positively charged particle. Part (a) what s the magnitude of the electric force, F in newtons, that acts on the charge Q2? Part (b) what is the direction of the force on charge Q2? Part (c) what is the magnitude of the acceleration, a in m/s2, experienced...
Two point charges, –10 nC and +18 nC , are held fixed a distance 0.40 m apart. Assume that both charges lie on x -axis, for the -10 nC x = 0 and for the +18 nC charge x = 0.40 m . Part A: Where can a +20 nC charge be placed so that the net force on it is zero? Express your answer to two significant figures and include the appropriate units. Part B: Repeat part A if...
A charge, q1 = 20.00 nC (mass = 5.00 kg) is held fixed at the origin. A charge q2 = –4.0 nC (mass = 10.0 kg) is held fixed at the position x = 15.0 cm. A charge q3 = 500 mC (mass = 0.140 kg) is released from rest at a position x = 20.0 cm. How fast is q3 going when it has moved 3.00 cm?