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).
1. A proton is a moderately strong electric field experiences an electric force of F=10-14 N....
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 )
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....
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...
(1 point) When a proton has a velocity v=(5i^+8j^)×106m/s, it experiences a force F=−1.8×10−13k^N. In a second experiment with the same B field, the particle is moving along the +zaxis, and under these new conditions it experiences a force along the +xaxis. What is the magnetic field?
A proton moving in a uniform magnetic field with v⃗ 1=1.13×106ı^m/s experiences force F⃗ 1=1.70×10−16k^N. A second proton with v⃗ 2=2.06×106ȷ^m/s experiences F⃗ 2=−4.17×10−16k^N in the same field. What is the magnitude of B⃗ ? What is the direction of B⃗ ? Give your answer as an angle measured ccw from the +x-axis.
106 N opposite the 7. An electron in an electric field experiences a force of 1 × direction of the field. What is the magnitude of the electric field? (A) 16x 1023 NC (B) 1.6 x 1024NC C)6.3 x 10* NIC (D)6.3x l 8. A 1μF capacitor has plates that are 0.2 mm apart. between the plates. What is the area of the plates? (A) 0.23 m2 (B) 2.3 m2 (C) 23 m2 (D) 230m2
N opposite the 7. An electron in an electric field experiences a force of 1 x 106 direction of the field. What is the magnitude of the electric field? (A) 1.6x 1023 NIC (B) 1.6x 102*N/C (C) 6.3 x 10AN/C (D) 6.3x 1025 NC 8. A 1μF capacitor has plates that are 0.2 mm apart. There is only empty space between the plates. What is the area of the plates? (A) 0.23 m2 (B) 2.3 ㎡ (C) 23 m2 (D)...
1- An proton is placed in a constant electric field of 8.16x104N/C. What is the force on the electron? If the electron is released, what is its speed after 4.0 ps? 2- What amount of work is required to bring a +3.1µC charge to within 5.0mm of an +2.7µC charge?
1) When two point charges are a distance d part, the electric force that each one feels from the other has magnitude F. In order to make this force twice as strong, the distance would have to be changed to A) 2d. B) v2 d D) d/2. E) d/4. 1) When two point charges are a distance d part, the electric force that each one feels from the other has magnitude F. In order to make this force twice as...
1 and 2 please... For 1, is the towards the electric or is it moving in the opposite direction? Or is the magnitude zero? 1 -10 points SerCP10 16.P002 A proton is released from rest in a uniform electric field of magnitude 421 N/C. (a) Find the electric force on the proton magnitude (b) Find the acceleration of the proton m/'s magnitude direction (c) Find the distance it travels in 1.80 Us cm Submit Answer Save Progress 2. 10 points...