An electron with a speed of 2.0 × 10 6 m/s moves into a uniform electric field of 550 N/C that is parallel to the electron’s motion. How long does it take to bring the electron to rest? ( m e = 9.11 × 10 −31 kg, e = 1.6 × 10 −19 C)
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- A proton is fired from very far away directly at a fixed particle with charge q = 1.12 x 10-18 C. If the initial speed of the proton is 3.0 x 105 m/s, what is its distance of closest approach to the fixed particle? The mass of a proton is -27 kg. m 1.67 X 10A uniform electric field of magnitude 357 N/C pointing in the positive x-direction acts on an electron, which is initially at rest. The electron has moved 3.60 cm. a) What is the work done by the field on the electron? b) What is the change in potential energy associated with the electron? c) What is the velocity of the electron?Compute the time it takes for an electron placed at rest in an electric field of (1.70x10^1) N/C to reach a speed of 3 X 106 m/s ? Give your answer in units of s to 3 significant digits.
- The drawing shows an electron entering the lower left side of a parallel plate capacitor and exiting at the upper right side. The initial speed of the electron is 5.03 × 106 m/s. The capacitor is 2.00 cm long, and its plates are separated by 0.150 cm. Assume that the electric field between the plates is uniform everywhere and find its magnitude. Pe 15.30 + SAW + 2.00 cm + + + 0.150 cm= 2 8) The figure shows two charged parallel plates. The electric field between them is uniform, with a magnitude of 3.0 N/C. A particle with negative charge -2le and mass 3.36 x 10-27 kg is released from rest at coordinate x = 0.050 m. What is its speed (m/s) just before it crashes into one of the plates? (You must decide which plate.) x=0)) x=0,20 m A) 1.9 × 104 B) 5.3 × 103 X C) 4.4 × 103 D) 2.8 × 103 E) 9.3 × 103A proton has a mass of about 1.673x10-27kg. If an electron is placed in a region of space within which a constant electric field exists with magnitude 4.878 N/C, how long would it take this proton to travel a distance of 218.64m in units of ms (milliseconds)? Assume the proton does not collide with anything along the way. Hint: You will need to use the kinematic relationships for linear motion that we learned back in PHY 2010. This results of this problem show you that small charges like protons, and electrons too, move great distances in a short amount of time under very small external electric fields - if those charges are in a vacuum - otherwise, they quickly strike a nearby charge. Note: It is understood that the unit of your answer is in milliseconds, however do not explicitly include units in your answer. Enter only a number.
- An electron has an initial velocity of 6.00 x 106 m/s in a uniform 5.00 x 105 N/C strength electric field. The field accelerates the electron in the direction opposite to its initial velocity. How far does the electron travel before coming to rest? Provide the solution:__________ x 10-4 mA proton is projected in the positive x direction into a region of a uniform electric field E= -3.00 * 10° i N/C at t = 0. The proton travels 6.00 cm before coming to rest. Determine its initial speed? (proton mass 1.6 * 1027 kg)Starting from rest, a proton was accelerated by an electric field. After a distance of 1.35 m the proton reaches a speed of 1.97 x 105 m/s (m, = 1.67 x 10-27 kg, q,= 1.60 x 10-19 C). a) What is the final kinetic energy of the proton? b) What is the potential energy difference of the proton? c) What is the magnitude of the electric field?
- An electron is accelerated by a constant electric field of magnitude 295 N/C. (a) Find the acceleration of the electron. m/s2 (b) Use the equations of motion with constant acceleration to find the electron's speed after 1.25 x 108 s, assuming it starts from rest. m/sProblem 7 An electron is placed in a uniform electric field of 0.15 N/C. Assume that the velocity of the electron is zero at t= 0. What is the velocity of the electron at t = 1 milliseconds? A) 5.3 × 10^7 m/s B) 8.8× 10^6 m/s C) 5.2× 10^7 m/s D) 2.6 × 10^7m/sE) 7.6 × 10^7 m/sThe figure shows an electric dipole. What is the magnitude of the dipole's electric field at point P? Assume that q = 1.34 x 10-6 c, d = 8.65 x 10-6 m, and r = 7.81 cm. +q L. P Number MI d/2 F d/2 Units <