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+1.0 uC GOT IT? Section 16.1 Three 1.0-μC charges lie at the corners of an equilateral...
Three equal charges of magnitude +6.00 μC are placed at the corners of an equilateral triangle of side 4.00 cm. What is the electric field potential energy of the system of these charges? 0 J 24.3 J 90.0 J 900 mJ 243 mJ (There is no figure with this question.)
Three particles with charges of 1.0 μc,-1.0 με, and 0.50 με are placed at the corners A, B, and C of an equilateral triangle with side length s-0.60 m as shown in the figure below. Find the net force on the charge at point C. (Express your answer in vector form. Assume the +x direction is to the right and the y direction is upward.) 1.0 uC 0.50 AC Submit Answer Save Progress
1.Charges of 4.0 μC and −6.0 μC are placed at two corners of an equilateral triangle with sides of 0.10 m. At the third corner, what is the electric field magnitude created by these two charges? Draw the figure and show your work
Three point charges are located at the corners of an equilateral triangle, whose side l = 0.5 m. The charges have magnitude -7.00 μC, 2.00 μC and 2.00 μC respectively. (a) Calculate the total electric potential energy of these charges. (b) How much work must be done to move the 2.00 μC charge to infinity, leaving the other two charges in place? (d) Find the (net) electric field at the midpoint between the 2.00 μC and -2.00 μC charges.
#2) Two charges, q,-2.5 μC and q2-3.0με, are placed at two corners of an equilateral triangle of side 1.1 m. Calculate the magnitude of the net electric field at the origin O due to the two charges qi and q. Coulomb's constant is 9.0 x 10° Nm2/c2 q-2.5 uC 1.1 m 42-3.0 uC 1.1 m 0
59. Charges of 3.5 uC and -7.6 uC are placed at two corners of an equilateral triangle with sides of 0.1 m. At the third corner, what is the electric field magnitude created by these two charges? (e 8.99 x 10N-m'/c) a. 1.2E+7 N/C b. 3.0E+6 N/C c. 5.5E+6 N/C d. 5.9E+6 N/C
Initially, identical point charges (+12 UC) are placed at the corners of an equilateral triangle with sides of 2.0 m length. Next, a 50. UC charge is brought from very far away and placed at the midpoint of the bottom side of the triangle. How much work is done by the field to bring that charge of 50. UC from infinity to the midpoint of the bottom side of the triangle? - 9.3 - 14 19 26 - 23
Three particles with charges of 1.0 uc.-1.0 uc, and 0.50 pC are placed at the corners A, a and Cof an equ lateral triangle with side length S-O72 m as shown in the figure below. Find the net force on the charge at point C. (Express your answer in vector form. Assume the *x direction is to the right and the ty direction is upward.) F-1-0.0085-0.01 47j | X N 1.0m -10 pC 0.50 C Noed Help?
4. Three charged particles are placed at the corners of an equilateral triangle of side 4.8 m. The charges are +7 uC, -8 uC, and -8 uC. Calculate the magnitude and direction of the net force on each due to the other two.
4. Three charged particles are placed at the corners of an equilateral triangle of side 4.8 m. The charges are +7 uC, -8 uC, and -8 uC. Calculate the magnitude and direction of the net force on...
Question6 Three charged particles are located at the corners of an equilateral triangle as shown in figure Calculate the magnitude and direction of the total a) electric force on the 7.00 HC charge and b) electric field on the 7.00 uC charge c) Find the electric potential at the location of the-4.00 μC charge due to the other 2 charges. 7.00 μ C 0.500 m 60.0° 2.00 uC -4.00 uC