Two charged particles are separated by 10 cm. Suppose the charge on each particle is halved.
Force between two charges are
now if both the charges are half
so force between them will become 1/4 times the initial force
Two charged particles are separated by 10 cm. Suppose the charge on each particle is halved.
Two charged particles are located in the X-Y Plane. Particle 1 carries 0.310 uC of charge and is located at x = -1.08 cm and y = 2.46 cm. Particle 2 carries -0.960 uC of charge and is located at x = -4.54 cm and y = -1.97 cm. Find the X component of the Force on Particle 2, in Newtons.
Two charged particles are located in the X-Y Plane. Particle 1 carries 0.040 uC of charge and is located at x = -0.71 cm and y = -1.88 cm. Particle 2 carries -0.110 uC of charge and is located at x = -2.73 cm and y = -4.36 cm. Find the Y component of the Force on Particle 1, in Newtons.
Two charged particles are located in the X-Y Plane. Particle 1 carries 0.290 uC of charge and is located at x = -0.53 cm and y = 3.32 cm. Particle 2 carries -0.870 uC of charge and is located at x = -1.60 cm and y = 2.01 cm. Find the X component of the Force on Particle 2, in Newtons.
Two charged particles are located in the X-Y Plane. Particle 1 carries 0.400 uC of charge and is located at x 1.50 cm and y-4.35 cm, Particle 2 carries 0.440 uC of charge and is located at x 2.37 cm and y 2.36 cm. Find the Y component of the Force on Particle 2, in Newtons.
Suppose particle A is 65 cm from particle B and that particle A has a charge of 6 mu C and that particle B has a charge of 11 pC. If k is 9 times 10^9 Nm^2/C^2, what is the force between the two particles?
Two particles are fixed to an x axis: particle 1 of
charge -6.18 × 10-7 C is at the origin and particle 2 of
charge +6.18 × 10-7 C is at x2 =
14.1 cm. Midway between the particles, what is the magnitude of the
net electric field?
Two particles are fixed to an x axis: particle 1 of charge-6.18 × 10-7 C is at the origin and particle 2 of charge +6.18 × 10-7 C is at X2 =...
two identical particles, each with a mass of 2.0 mg and a charge of 25 nC, are released simultaneously from rest when the two are 4.0 cm apart. what is the speed of either particle at the instant when the two are separated by 10 cm?
Two charged particles are placed along the x-axis. The first particle has a charge q1 = +q and is at the origin. The second has a charge q2 = −2q and is at x = d = 4.60 cm. Determine the finite value of x (in cm) where the electric field is zero. Determine the smallest and largest finite values of x (in cm) where the electric potential is zero. (Note: Assume a reference level of potential V = 0...
There are only two charged particles in a particular region.
Particle 1 carries a charge of +q. Particle 2 carries a charge of
-2q. They are arranged on the x-axis as shown. Where is is possible
to have the net field caused by these two charges equal to
zero?
Im thinking its at the origin maybe....
There are only two charged particles in a particular region. Particle 1 carries a charge of+ q. Particle 2 carries a charge of -2...
Two particles are fixed to an x axis: particle 1 of charge -5.29 × 10-7 C is at the origin and particle 2 of charge +5.29 × 10-7 C is at x2 = 18.3 cm. Midway between the particles, what is the magnitude of the net electric field?