A positively charged particle is released from rest at the surface of a sphere with considerable...

A charged particle is released from rest 3 cm from the surface of a very long...

A charged particle is released from rest 3 cm from the surface of a very long wire with a linear charge density of -25 microC/m. What is the particle's speed after it has been displaced by 1.5 cm?

a) Two horizontal plates, aligned 1 cm apart, one above the other, are given equal but...

a) Two horizontal plates, aligned 1 cm apart, one above the other, are given equal but opposite charges so that a uniform, upward electric field of 2kN/C exists in the space between them. A particle with a mass of 2e-16 kg and a charge of 1 microC leaves the bottom plate at 0.1 Mm/s at an angle of 30 degrees relative to the horizontal. What horizontal displacement does the particle experience before landing? b) The charged particle in the previous...

The potential at location A is 562 V. A positively charged particle is released there from...

The potential at location A is 562 V. A positively charged particle is released there from rest and arrives at location B with a speed vB. The potential at location C is 1180 V, and when released from rest from this spot, the particle arrives at B with twice the speed it previously had, or 2 vB. Find the potential at B.

The potential at location A is 362 V. A positively charged particle is released there from...

The potential at location A is 362 V. A positively charged particle is released there from rest and arrives at location B with a speed vB. The potential at location C is 795 V, and when released from rest from this spot, the particle arrives at B with twice the speed it previously had, or 2vB. Find the potential at B. V

An electron is released from rest on the axis of a uniform positively charged ring, 0.100...

An electron is released from rest on the axis of a uniform positively charged ring, 0.100 m from the ring's center. If the linear charge density of the ring is +0.100 µC/m and the radius of the ring is 0.300 m, how fast will the electron be moving when it reaches the center of the ring?

A negatively charged particle of mass 6.11 x 10-23 kg is accelerated from rest through an...

A negatively charged particle of mass 6.11 x 10-23 kg is accelerated from rest through an electric potential difference of 3.5 x 103 V. After this, it enters a magnetic field of strength 0.80 T and undergoes uniform circular motion with a radius of 25 cm. Find the speed and charge of the particle 2.How many excess electrons does the particle have?

A positively charged (91.6 uC) 3.4 x 10-15 kg particle is initially at rest when it...

A positively charged (91.6 uC) 3.4 x 10-15 kg particle is initially at rest when it is at an unknown distance from a heavy (229.8 uC) nucleus that will stay at rest as the positive particle moves away from it. Once the particle reached 5.2 m from the nucleus, it moving at 1 x 108 m/s. What was the unknown, initial distance?

A thin, uniformly charged spherical shell has a potential of 727 V on its surface. Outside...

A thin, uniformly charged spherical shell has a potential of 727 V on its surface. Outside the sphere, at a radial distance of 20.0 cm from this surface, the potential is 403 V. (1) Calculate the radius of the sphere. (2) Determine the total charge on the sphere (3) What is the electric potential inside the sphere at a radius of 3.0 cm (4) Calculate the magnitude of the electric field at the surface of the sphere. (5) If an...

A particle of charge +9.8 μC is released from rest at the point x = 94...

A particle of charge +9.8 μC is released from rest at the point x = 94 cm on an x axis. The particle begins to move due to the presence of a charge Q that remains fixed at the origin. What is the kinetic energy of the particle at the instant it has moved 21 cm if (a)Q = +96 μC and (b)Q = –96 μC?

A particle of charge +2.1 μC is released from rest at the point x = 60...

A particle of charge +2.1 μC is released from rest at the point x = 60 cm on an x axis. The particle begins to move due to the presence of a charge Q that remains fixed at the origin. What is the kinetic energy of the particle at the instant it has moved 12 cm if (a)Q = +93 μC and (b)Q = –93 μC?