Question

Notify Me Bookmark

A charge of +3.00 μC is located at the origin, and a second charge of −2.00 μC is located on the xy-plane at the point (50.0 cm, 40.0 cm). Determine the magnitude F of the electric force exerted by the −2.00 μC charge on the +3.00 μC charge. F = N Determine the direction of electric force exerted by the −2.00 μC charge on the +3.00 μC charge, expressed as an θ = angle θ measured counterclockwise from the positive x-axis.

A charge of +3.00 μC is located at the origin, and a second charge of −2.00 μC is located on the xy-plane at the point (50.0 cm, 40.0 cm). Determine the magnitude F of the electric force exerted by the −2.00 μC charge on the +3.00 μC charge. F = N Determine the direction of electric force exerted by the −2.00 μC charge on the +3.00 μC charge, expressed as an θ = angle θ measured counterclockwise from the positive x-axis.

Image text
A charge of + 3.00 μ C is located at the origin, and a second charge of 2.00 μ C is located on the x y -plane at the point ( 50.0 c m , 40.0 c m ) .
Determine the magnitude F of the electric force exerted by the 2.00 μ C charge on the + 3.00 μ C charge.
F =
N
Determine the direction of electric force exerted by the 2.00 μ C charge on the + 3.00 μ C charge, expressed as an
θ = angle θ measured counterclockwise from the positive x -axis.

Detailed Answer

0 0

Please enter your email here. You will get email when this question is answered by our tutor.

Doubtrix Logo

Problem is not yet solved!

Click on Notify me to get email when question is answered.

Join Doubtrix with 7-days free trial

  • Icon Correct & Verified Answers
  • Icon No AI-Generated Answers
  • Icon Video Solution for Difficult Questions
  • Icon Work With Experts to Reach at Correct Answers
Notify me Login Sign Up

Similar/Related Questions

In the figure below, each charged particle is located at one of the four vertices of a square with side length = a. In the figure, A = 3, B = 4, and C = 3, and q > 0. (i) (a) What is the expression for the magnitude of the electric field in the upper right corner of the square (at the location of q )? (Use the following as necessary: q, a, and ke⋅) E = Give the direction angle (in degrees counterclockwise from the +x-axis) of the electric field at this location. (counterclockwise from the +x-axis) (b) Determine the expression for the total electric force exerted on the charge q. (Enter the magnitude. Use the following as necessary: q, a, and ke. ) F = Give the direction angle (in degrees counterclockwise from the +x-axis) of the electric force on q. ∘ (counterclockwise from the +x-axis) (c) What If? How would the answers to parts (a) and (b) change if each of the four charges were negative with the same magnitude? Select all that apply. The force would be the same magnitude but opposite direction as the force in part (b). The electric field would be the same magnitude and direction as the field in part (a). The force would be the same magnitude and direction as the force in part (b). The electric field would be the same magnitude but opposite direction as the field in part (a).
Solution
0 0

A finite line of charge with linear charge density λ = 2.00×10−6 C/m and length L = 0.720 m is located along the x-axis (from x = 0 to x = L). A point charge of q = −6.00×10−7 C is located at the point x0 = 1.00 m, y0 = 4.75 m. Find the electric field magnitude E and direction θ (measured counterclockwise from the +x axis) at the point P, which is located along the x-axis at xP = 10.70 m. The Coulomb force constant is k = 1/(4πϵ0) = 8.99×109 (N⋅m2)/C2. E = N/C θ =
Solution
0 0

Particle A of charge 3.50×10−4 C is at the origin, particle B of charge −6.20×10−4 C is at (4.48 m, 0) and particle C of charge 1.10×10−4 C is at (0, 3.88 m). (a) What is the x-component of the electric force exerted by A on C? (b) What is the y-component of the force exerted by A on C? N (c) Find the magnitude of the force exerted by B on C. N (d) Calculate the x-component of the force exerted by B on C. N (e) Calculate the y-component of the force exerted by B on C. N (f) Sum the two x-components to obtain the resultant x-component of the electric force acting on C. N (g) Repeat part (f) for the y-component. N (h) Find the magnitude and direction of the resultant electric force acting on C. magnitude N direction ∘ counterclockwise from the +x-axis
Solution
0 0