A 1.00-mm-diameter glass sphere has a charge of + 1.40 nC. What speed does an electron...

A 2.3 mm -diameter sphere is charged to -4.5 nC . An electron fired directly at...

A 2.3 mm -diameter sphere is charged to -4.5 nC . An electron fired directly at the sphere from far away comes to within 0.33 mm of the surface of the target before being reflected. a.What was the electron's initial speed? b.At what distance from the surface of the sphere is the electron's speed half of its initial value? c.What is the acceleration of the electron at its turning point?

What is the escape speed of an electron launched from the surface of a 1.1-cm-diameter glass...

What is the escape speed of an electron launched from the surface of a 1.1-cm-diameter glass sphere that has been charged to 10 nC ?

A research Van de Graaff generator has a 1.00-m-diameter metal sphere with a charge of 2.00...

A research Van de Graaff generator has a 1.00-m-diameter metal sphere with a charge of 2.00 µC on it. (a) What is the potential near its surface for an electron? (b) At what distance from its center is the potential dropped to 1V? (c) What is the energy of the electron in eV at this distance?

Part A What is the escape speed of an electron launched from the surface of a...

Part A What is the escape speed of an electron launched from the surface of a 1.5-cm-diameter glass sphere that has been charged to 9.0 nC ? Express your answer to two significant figures and include the appropriate units. v=

A small sphere carrying 8.0 nC of charge is placed 100 mm from a small sphere...

A small sphere carrying 8.0 nC of charge is placed 100 mm from a small sphere carrying 4.0 nC of charge. Assume the spheres are tiny relative to the 100-mm separation distance.At what position from the particle with 8.0 nC of charge on the line joining the spheres is the electric field magnitude zero?​

A conducting sphere with a radius of R = 9.3 mm has a uniform and constant...

A conducting sphere with a radius of R = 9.3 mm has a uniform and constant surface charge density of teta= 10 nC / m2. What will be the magnitude of the electric field produced by that sphere at a distance from the center of the sphere der = 23.5 cm?

Two 15-cm-diameter metal disks separated by a 0.66-mm-thick piece of Pyrex glass are charged to a...

Two 15-cm-diameter metal disks separated by a 0.66-mm-thick piece of Pyrex glass are charged to a potential difference of 1100 V What is the surface charge density on the disks? What is the surface charge density on the glass?

Two 2.0-mm diameter beads, C and D, are 12mm mm apart, measured between their centers. Bead...

Two 2.0-mm diameter beads, C and D, are 12mm mm apart, measured between their centers. Bead C has mass 1.0 g and charge 2.5nC nC . Bead D has mass 1.7g g and charge -1.0 nC. If the beads are released from rest, what is the speed vC at the instant the beads collide? and What is the speed vD at the instant the beads collide?

Consider a copper wire with a diameter of 1.67 mm. (a) What is the drift speed...

Consider a copper wire with a diameter of 1.67 mm. (a) What is the drift speed of the electrons in the copper wire when a current of 14.0 A flows through it? Assume that each copper atom contributes one free electron to the metal. The density of copper is 8.92 g/cm3. (b) How does this drift speed compare to the random rms speed of an electron at 20.0°C? To make this comparison, determine the random rms speed of an electron...

A research-level Van de Graaff generator has a 1.9 m diameter metal sphere with a charge...

A research-level Van de Graaff generator has a 1.9 m diameter metal sphere with a charge of 4.85 mC on it. a. What is the potential near its surface in MV? (Assume the potential is equal to zero far away from the surface. b. At what distance in meters from its center is the potential 1.00 MV? c. An oxygen atom with two missing electrons is released from rest near the Van de Graaff generator. What is its kinetic energy...