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2. B
4. An electric field of 5000 N/C is in the +y direction. A charge of 3.0 μC is brought a distance...
4. An electric field of 5000 N/C is in the +y direction. A charge of 3.0 μC is brought a distance of 45 cm at an angle of 35° with the +x direction (see diagram below). a. What is the potential difference between the endpoints of b. What is the potential energy difference of the charge as it moves c. Repeat parts a) and b) for a charge of -5.0 uC this displacement? along this path? 45 cm 350
4....
A proton (mass 1.67x10^-27 kg, charge 1.602x10^-19 C) is placed in a uniform electric field, E=5000...
A proton (mass 1.67x10^-27 kg, charge 1.602x10^-19 C) is placed in a uniform electric field, E=5000 N/C. a) What is the change in electric potential if the proton moves 1 cm in the direction of the electric field? b) What is the change in electric potential energy if the proton moves 1 cm in the direction of the electric field? What is the change in electric potential if the proton moves 1 cm perpendicular to the electric field? d) What...
A point charge Q produces an electric field of magnitude 120.5 N/C at a distance of...
A point charge Q produces an electric field of magnitude 120.5 N/C at a distance of 1.68 m. If the field is directed toward the charge, what is the value of Q?
1. An electron (q = -1.6x10-19 C, m=9.11x10-31 kg) is placed in an electric field of...
1. An electron (q = -1.6x10-19 C, m=9.11x10-31 kg) is placed in an electric field of magnitude 3.52x104N/C which points in the positive z direction. Calculate the magnitude and direction of the acceleration of the electron. 2. An electron is initially moving in the +z direction, with a speed v=2.54x105 m/s at z=0. In the region between z=+1.50 cm and z=+2.50 cm, there is a uniform electric field of magnitude 4.10x104 N/C in the +x direction. Outside that region (z...
A charge q = 5 x 10-6 C starts at rest in a uniform electric field...
A charge q = 5 x 10-6 C starts at rest in a uniform electric field of 100 N/C. The electric field is parallel to the +x-direction. How far has the particle traveled after 10 s? The mass of the charge is 5 mg.
1-5 please Questions 1.2 T The figure above shows two particles, each with a charge of...
1-5 please
Questions 1.2 T The figure above shows two particles, each with a charge of +Q, that are located at the opposite corners of a square of side d. 1. What is the direction of the net electric field at point P? (D) 1 (E) 2. What is the potential energy of a particle of charge +2q that is held at point P? (A) Zero (B) 2 kgQcc) kq (D) 2kqQ (6) 2,2 kgQ d d d d q=3.0...
15. Point P and point charge Q are separated by a distance R. The electric field...
15. Point P and point charge Q are separated by a distance R. The electric field at point Phas magnitude E. How could the magnitude of the electric field at point P be doubled to 25? O double the distance to 2R O reduce the distance to R2 reduce the distance to R/4 reduce the point charge to Q2 double the point charge to 20 11. What is the electric field strength atx-0 m, y-0 m produced by two electrons,...
1) A -1 nC charge is placed in a uniform electric field of strength 25 N/C....
1) A -1 nC charge is placed in a uniform electric field of strength 25 N/C. What force (in N) (magnitude and direction) will the charge feel due to this field? 2) A + 1 C charge is placed at the origin. A -1 C charge is placed at position (x,y)=(2 m, 0), and a -2 C is placed at (x,y)=(1 m, 1 m). What is the electric potential energy (in J) of this charge configuration?
A charge-q is located at x =-1 cm and a charge +q is located at x...
A charge-q is located at x =-1 cm and a charge +q is located at x = 1 cm, as shown in the diagram. The electric field strength atx 5 cm is 3000 N/C. What is the charge q? 9. a) C q+q 3000 N/C 0.96 n b) 1.4 nC c) 1.6 nC d) 2.7 nC -1 0 1
At a given region in space, the electric field is E = 5.89 ✕ 103 N...
At a given region in space, the electric field is E = 5.89 ✕ 103 N C · m2 x2î. Note that when x is in m, E will be in N/C. Electric charges in this region are at rest. Determine the volume density of electric charge (in nC/m3) at x = 0.320 m. Suggestion: Apply Gauss's law to a box between x = 0.320 m and x = 0.320 m + dx. nC/m3
4. An electric field of 5000 N/C is in the +y direction. A charge of 3.0 μC is brought a distance of 45 cm at an angle of 35° with the +x direction (see diagram below). a. What is the potential difference between the endpoints of b. What is the potential energy difference of the charge as it moves c. Repeat parts a) and b) for a charge of -5.0 uC this displacement? along this path? 45 cm 350
4....
A proton (mass 1.67x10^-27 kg, charge 1.602x10^-19 C) is placed in a uniform electric field, E=5000 N/C. a) What is the change in electric potential if the proton moves 1 cm in the direction of the electric field? b) What is the change in electric potential energy if the proton moves 1 cm in the direction of the electric field? What is the change in electric potential if the proton moves 1 cm perpendicular to the electric field? d) What...
1-5 please
Questions 1.2 T The figure above shows two particles, each with a charge of +Q, that are located at the opposite corners of a square of side d. 1. What is the direction of the net electric field at point P? (D) 1 (E) 2. What is the potential energy of a particle of charge +2q that is held at point P? (A) Zero (B) 2 kgQcc) kq (D) 2kqQ (6) 2,2 kgQ d d d d q=3.0...
15. Point P and point charge Q are separated by a distance R. The electric field at point Phas magnitude E. How could the magnitude of the electric field at point P be doubled to 25? O double the distance to 2R O reduce the distance to R2 reduce the distance to R/4 reduce the point charge to Q2 double the point charge to 20 11. What is the electric field strength atx-0 m, y-0 m produced by two electrons,...
A charge-q is located at x =-1 cm and a charge +q is located at x = 1 cm, as shown in the diagram. The electric field strength atx 5 cm is 3000 N/C. What is the charge q? 9. a) C q+q 3000 N/C 0.96 n b) 1.4 nC c) 1.6 nC d) 2.7 nC -1 0 1
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