How much potential difference must be established between two parallel plates if an electron leaving 1...

An electron cathode ray tube is accelerated when it passes between two parallel plates separated by...

An electron cathode ray tube is accelerated when it passes between two parallel plates separated by 5.0 cm. If the electron is initially moving with speed vi = 1000 m/s to the right and it has a speed of vf = 5500 m/s after leaving the acceleration region, what is the potential difference deltaV between the plates and which plate, the right or the left, is at the highest potential? Justify your answer.

Two parallel plates are charged such that there is a 400V potential difference between them. A...

Two parallel plates are charged such that there is a 400V potential difference between them. A proton is fired from a point midway between the plates toward the positive plate. The protons initial speed is 1.5 × 105 m/s. a) Show that this speed is insufficient for the proton to reach the positive plate. b) What is the proton’s speed as it collides with the negative plate? Possibly useful information: mass of a proton = 1.67 × 10−27 kg, charge...

The potential difference between the plates of Two parallel plates is 400V. a. Find the maximum...

The potential difference between the plates of Two parallel plates is 400V. a. Find the maximum speed a proton could have and still be brought to a stop by the field between the plates before it reaching the other side? b. Show the orientation of the positive/negative plates to the motion of the proton needed to bring the proton to a stop.

Oppositely charged parallel plates are separated by 6.34 mm. A potential difference of 600 V exists...

Oppositely charged parallel plates are separated by 6.34 mm. A potential difference of 600 V exists between the plates. (a) What is the magnitude of the electric field between the plates? N/C (b) What is the magnitude of the force on an electron between the plates? N (c) How much work must be done on the electron to move it to the negative plate if it is initially positioned 2.92 mm from the positive plate? J

Problem 2 The distance between the two plates of a parallel plate capacitor is 5 cm....

Problem 2 The distance between the two plates of a parallel plate capacitor is 5 cm. The electric potential difference between the two plates is V= 6.0 v.   A proton is released from rest from the positive plate of a capacitor. q = 1.60 × 10-19 C, m electron = 1.67 × 10-27 kg, Show formulas, substitution, and calculation with units. Hint: You need to write the relation between Electric potential energy ( q V)and kinetic energy. ( K= ½...

Consider two parallel plates (as in a parallel plate capacitor), with plates which are very much...

Consider two parallel plates (as in a parallel plate capacitor), with plates which are very much wider than their separation, with an electric potential across the plates. Sketch the equipotential lines and field lines between the plates. If, the distance between the plates is 0.10 m, the potential of one plate is 0 V and the potential of the second plate is 10 V, what is the potential at a point 0.02 m from the second plate?

Two parallel plates are connected to a battery with a potential difference between the plates of...

Two parallel plates are connected to a battery with a potential difference between the plates of 3 Volts. A small charged particle is placed near one of the plates and released. This particle then moves towards the opposite plate, with the electric field doing work on the particle.[Let Ek be kinetic energy, U be potential energy and W the work done]. Which of the following statements is correct? (Give all CORRECT answers: B, AC, BCD ...) A) The potential energy...

1. Charges move in regions of potential difference. In the region between 2 parallel plates, taking...

1. Charges move in regions of potential difference. In the region between 2 parallel plates, taking the top one to be (+) and the bottom to be (-), an electron will be drawn to the top plate. Macroscopically, many electrons would creat a current. Using this example, explain why a galvanometer could be used.

oppositlely charged parallel plates are separated by 5.00 mm. A potential difference of 400.0 v exists...

oppositlely charged parallel plates are separated by 5.00 mm. A potential difference of 400.0 v exists between the plates. a) what is the magnitude of the electric field between the plates? b) how much work does the electric field do moving an electron from the negative plate to the positive plate?

The potential difference between a pair of oppositely charged parallel plates is 393 V. (a) If...

The potential difference between a pair of oppositely charged parallel plates is 393 V. (a) If the spacing between the plates is tripled without altering the charge on the plates, what is the new potential difference between the plates? (b) If the plate spacing is doubled while the potential difference between the plates is kept constant, what is the ratio of the final charge on one of the plates to the original charge