A small plastic bead has been charged to -12 nC  What is the magnitude of the acceleration...

A small glass bead has been charged to + 27.6 nC . You may need the...

A small glass bead has been charged to + 27.6 nC . You may need the following information: Mass of a proton: 1.67×10^−27kg Mass of an electron: 9.11×10^−31kg What is the magnitude of the acceleration of a proton that is 3.49 cm from the center of the bead? What is the direction of the acceleration of a proton that is 3.49 cm from the center of the bead? (Away or Towards the Bead) What is the magnitude of the acceleration...

A small glass bead has been charged to + 20 nC . What is the the...

A small glass bead has been charged to + 20 nC . What is the the acceleration of a proton that is 4.0 cm from the center of the bead? Input positive value if the acceleration is derected toward the bead and negative if it is directed away from the bead. What is the the acceleration of an electron that is 2.5 cm from the center of the bead? Input positive value if the acceleration is derected toward the bead...

A small glass bead has been charged to + 50.0 nC . A small metal ball...

A small glass bead has been charged to + 50.0 nC . A small metal ball bearing 1.50 cm above the bead feels a 1.90×10−2 N downward electric force. What is the charge on the ball bearing?

A small Styrofoam bead with a charge of −60.0 nC is at the center of an...

A small Styrofoam bead with a charge of −60.0 nC is at the center of an insulating plastic spherical shell with an inner radius of 20.0 cm and an outer radius of 28.0 cm. The plastic material of the spherical shell is charged, with a uniform volume charge density of −1.85 µC/m3. A proton moves in a circular orbit just outside the spherical shell. What is the speed of the proton (in m/s)?

(a) A small plastic bead with a charge of −60.0 nC is at the center of...

(a) A small plastic bead with a charge of −60.0 nC is at the center of an insulating rubber spherical shell with an inner radius of 20.0 cm and an outer radius of 32.0 cm. The rubber material of the spherical shell is charged, with a uniform volume charge density of −3.95 µC/m3. A proton moves in a circular orbit just outside the spherical shell. What is the speed of the proton (in m/s)? (b) What If? Suppose the spherical...

(a) A small plastic bead with a charge of −60.0 nC is at the center of...

(a) A small plastic bead with a charge of −60.0 nC is at the center of an insulating rubber spherical shell with an inner radius of 20.0 cm and an outer radius of 26.0 cm. The rubber material of the spherical shell is charged, with a uniform volume charge density of −1.40 µC/m3. A proton moves in a circular orbit just outside the spherical shell. What is the speed of the proton (in m/s)? (b) What If? Suppose the spherical...

Object A, which has been charged to + 12 nC , is at the origin. Object...

Object A, which has been charged to + 12 nC , is at the origin. Object B, which has been charged to − 20 nC , is at (x,y)=(0.0cm,2.0cm). What is the magnitude of the electric force on object A? What is the magnitude of the electric force on object B?

A small charged bead is suspended from a string. The bead has a mass of 32...

A small charged bead is suspended from a string. The bead has a mass of 32 g and a total charge of -50 nC. When in equilibrium, the string makes an angle of 30 o with the vertical. The bead is in a region where there is a uniform horizontal electric field. Find the field strength. Please explain thoroughly. Thank you

The figure below shows three small, charged beads, all lying along the horizontal axis. Bead A,...

The figure below shows three small, charged beads, all lying along the horizontal axis. Bead A, at left, has a 5.85 nC charge. Bead B has a 1.00 nC charge and is 3.00 cm to the right of A. Bead C has a −2.25 nC charge and is 2.00 cm to the right of B. Three charges lie along a horizontal line. A positive charge labeled qA is on the left. 3.00 cm to its right is a positive charge...

The figure shows a plastic ring of radius R = 50.4 cm. Two small charged beads...

The figure shows a plastic ring of radius R = 50.4 cm. Two small charged beads are on the ring: Bead 1 of charge +2.34 μC is fixed in place at the left side; bead 2 of charge +6.09 μC can be moved along the ring. The two beads produce a net electric field of magnitude E at the center of the ring. At what (a) positive and (b) negative value of angle θ should bead 2 be positioned such...