A proton in a particular electric field experiences an electric force whose magnitude is equal to the weight of the proton. Determine the magnitude of the electric field at the location of the proton.
A proton in a particular electric field experiences an electric force whose magnitude is equal to...
Question9 A proton in a particular electric field experiences an electric force whose magnitude is equal to the weight of the proton. Determine the magnitude of the electric field at the location of the proton hethe magitude of the electric Select the correct answer O 10- N/C O 10-3N/c O 10-4N/c O 10 N/C O 10-6N/c
What are the magnitude and direction of the electric field whose force will balance the weight of the following? (Use the information in the table below). Particle Electron (e)1.6021765 10-99.1094x 10-31 Proton (p)+1.6021765 10-19 1.67262 x 10-27 Neutron (n) Charge (c) Mass (kg) 1.67493 x 10-27 (a) an electron N/c) Direction (b) a proton N/C) Direction
What are the magnitude and direction of the electric field whose force will balance the weight of the following? (Use the information in the table below). Particle Charge (C) Mass (kg) Electron (e) −1.6021765 ✕ 10−19 9.1094 ✕ 10−31 Proton (p) +1.6021765 ✕ 10−19 1.67262 ✕ 10−27 Neutron (n) 0 1.67493 ✕ 10−27 (a) an electron (b) a proton
A proton is released in a uniform electric field, and it experiences an electric force of 1.50
When at rest, a proton experiences a net electromagnetic force of magnitude 8.6×10−13 N pointing in the positive x direction. When the proton moves with a speed of 1.6×106 m/s in the positive y direction, the net electromagnetic force on it decreases in magnitude to 7.3×10−13 N , still pointing in the positive x direction. A. Find the magnitude of the electric field. B. Find the direction of the electric field. C. Find the magnitude of the magnetic field. D....
A charge is moving perpendicular to a magnetic field and experiences a force whose magnitude is 2.57 x 10-3 N. If this same charge were to move at the same speed and the angle between its velocity and the same magnetic field were 36, what would be the magnitude of the magnetic force that the charge would experience?
Question C (5 points): If a -3.00 nC charge experiences an electric force whose magnitude and direction are (4.00 nN, NORTH), what are the magnitude and direction of the external electric field at the location of the -3.00 nC charge? Answer: Question D (5 points): A mass "M" is attached to a horizontal spring on a frictionless surface. The mass (attached to the spring) is pulled by hand and then released. The resulting "simple harmonic motion" has a period of...
1. A proton is a moderately strong electric field experiences an electric force of F=10-14 N. How long would it take this field to accelerate the proton from the rest (v0=0) to 80% of the speed of light (v=0.8c)? Hint: F= (Δp/t); p= mv= m0v/[(1-v2/c2)]1/2 . (Ans.: 66.9 μs).
Practice Problem: Electric Potential Energy (15 min.) A proton is at rest in an electric field, has a potential energy of 4.8. 10-19), and experiences a force of 1.2.10-'N to the right. If the proton is moved to the right by 1.0 10-10m, what is the proton's new electric potential energy? (Hint: find the work done on the proton) Practice Problem: Electric Potential [15 min.] A charge at rest, q = -1°C, moves from a location with an electric potential...
A proton is placed in a uniform electric field of 2950 N/C. *Calculate the magnitude of the electric force felt by the proton. (F = ? ) *Calculate the proton's acceleration. ( a= ? m/s2 ) *Calculate the proton's speed after 1.40 in the field, assuming it starts from rest. ( V= ? m/s )