Two charges q1= 5 μC and q2= -5 μC are located at r1 = (1, 0, 0) m and r2 = (0, 0, -1) m.
What is the force on r1? Write it in a vector form. [2]
What is the electric dipole moment of this configuration? Write it in a vector form. [2]
What are the electric fluxes through two spherical surfaces centered on the origin with radii R1= 0.5 m and R2= 10 m? [2]
What is the potential energy of this charge configuration? [2]
Two charges, Q1= 2.70 μC, and Q2= 5.90 μC are located at points (0,-3.00 cm ) and (0,+3.00 cm), as shown in the figure. What is the magnitude of the electric field at point P, located at (5.50 cm, 0), due to Q1 alone? 6.18×106 N/C You are correct. Previous Tries What is the x-component of the total electric field at P? By the principle of linear superposition, the total electric field at position P is the vector sum of...
Two-point charges, Q1 = -30 μC and Q2 = 50 μC, are located at (2, 0, 5) m and (-1, 0, -2) m, respectively. Find the force on Q1 and Q2.
Two charges, Q1= 2.20 μC, and Q2= 5.80 μC are located at points (0,-2.00 cm ) and (0,+2.00 cm), as shown in the figure. What is the magnitude of the electric field at point P, located at (5.00 cm, 0), due to Q1 alone? Tries 0/12 What is the x-component of the total electric field at P? Tries 0/12 What is the y-component of the total electric field at P? Tries 0/12 What is the magnitude of the total electric...
3 R1 19. [lpt] Two charges, Q1 = 2.40 μC' and Q2 6.00pC, are located at points (0 cm,-2.30 cm) and (0 cm, +2.30 cm), as shown. What is the magnitude of the electric field at point P, located at (5.50 cm, 0 cm), due to 1 alone? Answer: 20. [lpt What is the x component of the total electric field at P? Answer: Submia AlI Answerrs C subma All Answers
Two charges, Q1= 3.40 μC, and Q2= 5.10 μC are located at points (0,-3.50 cm ) and (0,+3.50 cm), as shown in the figure. What is the magnitude of the electric field at point P, located at (6.50 cm, 0), due to Q1 alone? 5.61×106 N/C You are correct. Previous Tries What is the x-component of the total electric field at P? By the principle of linear superposition, the total electric field at position P is the vector sum of...
In the picture below, the 3 charges Q1, Q2and Q3 are located at positions (-a,0), (a,0) and (0,-d) respectively.(The origin is the point halfway between Q1 and Q2.)Consider the special case where Q1, Q3greater than zero and Q2 = -Q1.Select true or false for each statement.True False If Q3 is released from rest, it will initially accelerate to the right.True False The electric potential at any point along the y-axis is positive.True False The electric potential at the origin equals Q3/(4πε0d).(Here k =...
Two positive charges q1 = q2 = 2.0 μC are located at x = 0, y = 0.30 m and x = 0, y = -0.30 m, respectively. Third point charge Q = 4.0 μC is located at x = 0.40 m, y = 0.What is the net force ((a)magnitude and (b)direction) on charge q1 exerted by the other two charges?
Two positive charges q1 = q2 = 2.0 μC are located at x = 0, y = 0.30 m and x = 0, y = -0.30 m, respectively. Third point charge Q = 4.0 μC is located at x = 0.40 m, y = 0.What is the net force ((a)magnitude and (b)direction) on charge q1 exerted by the other two charges?
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.
Two charges, Q1= 3.10 μC, and Q2= 6.20 μC are located at points (0,-3.00 cm ) and (0,+3.00 cm), as shown in the figure. What is the magnitude of the electric field at point P, located at (5.50 cm, 0), due to Q1 alone? The electric field at position P due to charge Q1 is not influenced by charge Q2. Therefore, ignore charge Q2 and apply Coulomb's Law. Remember to convert all units to the SI unit system. You have...