Homework Answers
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A –3.0 nC charge (on the left) and a +3.0 nC charge (on the right) are...
A –3.0 nC charge (on the left) and a +3.0 nC charge (on the right) are separated by some horizontal distance. The point P is a distance 5.0 mm away from each charge. The line from the negative charge (on the left) to point P makes a +25º angle with with the horizontal line between the two known charges. What is the magnitude of the net electric field at point P? (Hint: Make sure you can draw a diagram of...
Three charges are configured as shown. A 3.0 nC charge is located at the origin. A -5.0 nC charge is located at a point on the y axis 0.1 m from the origin.
Problem 1 Charge Configuration Three charges are configured as shown. A 3.0 nC charge is located at the origin. A -5.0 nC charge is located at a point on the y axis 0.1 m from the origin. The third charge of 4 nC is located on the x axis at a distance of 0.3 m from the origin. a) What is the magnitude and direction of the electric field at the origin? b) What is the magnitude and direction of the force on...
A positive charge having a magnitude of 5.0 nC is placed at the origin of coordinates....
A positive charge having a magnitude of 5.0 nC is placed at the origin of coordinates. An electric field sensor is placed at position P, (3.0 m, 4.0 m). What is the magnitude of the r- vector from the source charge to point P? 5.0 m 1.0 m 3.0 m 4.0 m some other value 0 7.0 m
Three charges (q-1 = 4.0 nC, q-2-3.0 nC, q-3 =-5.0 nC) are placed at the corners...
Three charges (q-1 = 4.0 nC, q-2-3.0 nC, q-3 =-5.0 nC) are placed at the corners of a right triangle as shown in the figure, where d = 4.49 cm. electric potential energy of this configuration of three fixed charges. Give your answer in units of microjoules. Calculate the 43 2d 41 42
Two point charges are placed as shown in the figure. 3.0 cm -------- 3.0 nC -4.0...
Two point charges are placed as shown in the figure. 3.0 cm -------- 3.0 nC -4.0 nC (a) At one point to the left of the - 4.0 nC charge, the electric field is zero. How far to the left of the -4.0 nC charge is this point? (b) At one point to the left of the -4.0 nC charge, the electric potential is zero. How far to the left of the - 4.0 nC charge is this point? (c)...
If Q 16 nC, a = 3.0 m, and b 4.0 m, what is the magnitude...
If Q 16 nC, a = 3.0 m, and b 4.0 m, what is the magnitude of the electric field at point P? a. 24N/C b. 31 N/C c. 33 N/C d. -19N/C e. 13 N/C
A point charge q = -3.0 nC moves horizontally to the right at 7.0 * 10...
A point charge q = -3.0 nC moves horizontally to the right at 7.0 * 10 m/s. When it gets to the point (0.0 cm, 0.0 cm), calculate the magnetic field created by this point charge at position: (a) (9.0 cm, 0.0 cm) and (b) (5.0 cm, 4.0 cm)
A +3.0 nC charge Q is initially at rest a distance of 10 cm(r₁) from a +5.0 nC charge
A +3.0 nC charge Q is initially at rest a distance of 10 cm(r₁) from a +5.0 nC charge q fixed at the origin. Naturally, the Coulomb force accelerates Q away from q, eventually reaching 15 cm(r₂).The charge Q is repelled by q, thus having work done on it and losing potential energy. What is the work done by the electric field between r₁ and r₂? What is the change in the potential energy of the two-charge system from r₁...
10. A 3.0 nC charge is at the origin, a-3.0 nC charge is at the point...
10. A 3.0 nC charge is at the origin, a-3.0 nC charge is at the point (0, 1.0 cm), and a 3.0 nC charge is at the point (1.0 cm, o). What are the magnitude and direction of the electric field due to this configuration at the point (1.0 cm, 1.0 cm)? You may give your answer in ij notation.
4&5 utes) Student ID: , 4. (7 pts) A 0.30 nC point charge is placed at...
4&5
utes) Student ID: , 4. (7 pts) A 0.30 nC point charge is placed at the origin, and a uniform linear charge density of 4.0 nC/m is distributed along the entire x axis. Consider lospherical (radius 5.0 cm) surface centered on the -origin. Determine the electric flux through this surface. a. 23 N m2/C d. 68 Nem2/c e. 79 Nem2/C 5. (7 pts) Charge of uniform density (0.50 nC/m2) is distributed over the xy plane, and charge of uniform...
A positive charge having a magnitude of 5.0 nC is placed at the origin of coordinates. An electric field sensor is placed at position P, (3.0 m, 4.0 m). What is the magnitude of the r- vector from the source charge to point P? 5.0 m 1.0 m 3.0 m 4.0 m some other value 0 7.0 m
Three charges (q-1 = 4.0 nC, q-2-3.0 nC, q-3 =-5.0 nC) are placed at the corners of a right triangle as shown in the figure, where d = 4.49 cm. electric potential energy of this configuration of three fixed charges. Give your answer in units of microjoules. Calculate the 43 2d 41 42
Two point charges are placed as shown in the figure. 3.0 cm -------- 3.0 nC -4.0 nC (a) At one point to the left of the - 4.0 nC charge, the electric field is zero. How far to the left of the -4.0 nC charge is this point? (b) At one point to the left of the -4.0 nC charge, the electric potential is zero. How far to the left of the - 4.0 nC charge is this point? (c)...
If Q 16 nC, a = 3.0 m, and b 4.0 m, what is the magnitude of the electric field at point P? a. 24N/C b. 31 N/C c. 33 N/C d. -19N/C e. 13 N/C
A point charge q = -3.0 nC moves horizontally to the right at 7.0 * 10 m/s. When it gets to the point (0.0 cm, 0.0 cm), calculate the magnetic field created by this point charge at position: (a) (9.0 cm, 0.0 cm) and (b) (5.0 cm, 4.0 cm)
10. A 3.0 nC charge is at the origin, a-3.0 nC charge is at the point (0, 1.0 cm), and a 3.0 nC charge is at the point (1.0 cm, o). What are the magnitude and direction of the electric field due to this configuration at the point (1.0 cm, 1.0 cm)? You may give your answer in ij notation.
4&5
utes) Student ID: , 4. (7 pts) A 0.30 nC point charge is placed at the origin, and a uniform linear charge density of 4.0 nC/m is distributed along the entire x axis. Consider lospherical (radius 5.0 cm) surface centered on the -origin. Determine the electric flux through this surface. a. 23 N m2/C d. 68 Nem2/c e. 79 Nem2/C 5. (7 pts) Charge of uniform density (0.50 nC/m2) is distributed over the xy plane, and charge of uniform...
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