Two charges of q1 = 1.4 μC and q2 = −2.1 μC are d = 0.56 m apart at two vertices of an equilateral triangle as in the figure below.
(a) What is the electric potential due to the 1.4-μC charge at the third vertex, point P?
(b) What is the electric potential due to the −2.1-μC charge at P?
(c) Find the total electric potential at P.
(d) What is the work required to move a 3.8-μC charge from infinity to P?
PLEASE ANSWER A, B, C, AND D ALL CORRECTLY. THANK YOU IN ADVANCE!!!
Two charges of q1 = 1.5 μC and q2 =-2.4 με are d = 0.40 m apart at two vertices of an equilateral triangle as in the figure below. 71 (a) what is the electric potential due to the 1.5 charge at the third vertex, point P? (b) What is the electric potential due to the -2.4 HC charge at P? (c) Find the total electric potential at P (d) What is the work required to move a 3.8 HC...
Two charges of q, = 1.9 uC and q, = -2.9 uc are d = 0.62 m apart at two vertices of an equilateral triangle as in the figure below. (a) What is the electric potential due to the 1.9-2C charge at the third vertex, point P? (b) What is the electric potential due to the -2.9-uC charge at P? (C) Find the total electric potential at P. (d) What is the work required to move a 3.4-uc charge from...
(a) If an estimateence of 4.00 kV. Pld l he den. 64. Two charges of 1.0 μC and-20 ortance μC are 0.50 m apart at two verti- 0.50 m uallel ces of an equilateral triangle as 0.50 m in Figure P16.64. (a) What is the electric potential due to the 1.0-uC charge at the third vertex, point P? (b) What is the electric potential due to the -2.0-uC charge at P? mem- 0.50 m -2.0 μC Figure P16.64 ates (c)...
6) Two charges of q_1 = 1.2 muC and q_2 = -2.0 are d = 0.66 m apart at two vertices of an equilateral triangle as in the figure below. (a) What is the electric potential due to the 1.2-muC charge at the third vertex, point P? v (b) What is the electric potential due to the 2.0-muC charge at P? V (c) Find the total electric potential at P. V (d) What is the work required to move a...
Electric charges q1 = q2 = +6 µC are at the bottom vertices of an equilateral triangle having 40 cm side. Calculate the magnitude and direction of the electric fields due to q1 and q2 at the top vertex of the triangle. Calculate the magnitude and direction of the electric force on charge q = -5 µC placed on the top vertex of the triangle.
Example 1: A charge q1 = 2.00 μC is located at the origin and a charge q2 = 6.00 μC is located at (0, 3.00) m.(A) Find the total electric potential due to these charges at the point P, whose coordinates are (4.00, 0) m.(B) Find the change in potential energy of the system of two charges plus a third charge q3 3.00 uC as the latter charge moves from infinity to point P.
3) Three point charges, -2.00 μC, +4.00 μC and + 6.00 μC. are located along the x-axis as shown in the figure. What is the electric potential (relative to infinity) at point P due to these charges? 4) The three point charges shown in the figure form an equilateral triangle with sides 4.9 cm long. What is the electric potential (relative to infinity) at the point indicated with the dot, which is equidistant from all three charges? Assume that the numbers...
0.500 m 60.0 a) Three point charges, A = 2.25 μC, B = 6.801C, and C =-4.20 pC, are located at the corners of an equilateral triangle as in the igure above. Find the magnitude and direction of the electric field at the position of the 2.25 HC charge. magnitude Yo fers significantly from the correct answer. Rework your solution from the beginning and check each step Enter a number. Your response differs from the correct answer by more than...
The electric potential at point P due to the point charges q1 and q2 is the algebraic sum of the potentials due to the individual charges. Suppose a charge of -2.50 μC is at the origin and a charge of 3.10 μC is at the point (0, 3.00) m. (a) Find the electric potential at (4.00, 0) m, assuming the electric potential is zero at infinity. (b) Find the work necessary to bring a 3.80 μC charge from infinity to the point (4.00,...
Example 1: A charge q1 = 2.00 μC is located at the origin and a charge q2 = -6.00 μC is located at (0, 3.00) m. (A) Find the total electric potential due to these charges at the point P whose coordinates are (4.00, 0) m.(B) Find the change in potential energy of the system of two charges plus a third charge q3 = 3.00 μC as the latter charge moves from infinity to point P.