Size of force or magnitude of electric force on one charge due to a set of charges can be obtained by finding the force due to each individual charge and then adding these forces according to vector addition .
Calculation for electric force is shown below.
41 1 r. 2 42 43 If q1 is 2.3 μC, q2 is-7.4 μC, and q3 is 3.0 μC. If r1 is 0.12 m and r2 is 0.18 m, find the angle of the force on charge 2 as an angle in degrees above the x-axis. NOTE THE NUMBERS WILL BE DIFFERENT FROM THE PREVIOUS PROBLEM!
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...
Three charges (q1 = 5.5 μC, q2 = -3.3 μC, and q3 = 2.9μC) are located at the vertices of an equilateral triangle with side d = 8.5 cm as shown. Then A charge q4 = 2.9 μC is now added as shown (directly below q3) also with side d q3 q1 q2 q4 What is F1,x, the x-component of the new net force on q1?
assume charges q1 and q2 are fixed in place. A charge q3 (-5.00
μC) is initially at point A and is later moved to point B. Find the
magnitude and direction of the electric force on q3 when at
location A.
Now find the electric force on charge q3 (-5.00 μC) when it is
moved to location B.
will vote, please show all work if possible
q1 -12.0 μC 45.0 cm
Three charges (q1 = 7.7 μC, q2 = -4.5 μC,
and q3 = 1.3μC) are located at the vertices of an
equilateral triangle with side d = 6.4 cm as shown.
A charge q4 = 1.3 μC is now added as shown.
Q1) What is F2,x, the x-component of the new net
force on q2?
Q2) What is F1,x, the x-component of the new net
force on q1?
3 3
Three charges, Q1, Q2 and Q3 are located on a straight line. The charge Q3 is located 0.125 m to the right of Q2. The charges Q1 = 1.73 μC and Q2 = -2.46 μC are fixed at their positions, distance 0.301 m apart, and the charge Q3 = 3.18 μC could be moved along the line. For what position of Q3 relative to Q1 is the net force on Q3 due to Q1 and Q2 zero? Give your answer...
Three charges, Q1, Q2 and Q3 are located on a straight line. The charge Q3 is located 0.147 m to the right of Q2. The charges Q1 = 1.39 μC and Q2 = -2.84 μC are fixed at their positions, distance 0.301 m apart, and the charge Q3 = 3.03 μC could be moved along the line. For what position of Q3 relative to Q1 is the net force on Q3 due to Q1 and Q2 zero? Give your answer...
ThreeChargesNum.problem Three charges, Q1, Q2 and Q3 are located on a straight line. The charge Q3 is located 0.18 m to the right of Q2. The charges Q1 = 1.56 μC and Q2 = -2.46 μC are fixed at their positions, distance 0.246 m apart, and the charge Q3 = 3.33 μC could be moved along the line. For what position of Q3 relative to Q1 is the net force on Q3 due to Q1 and Q2 zero? Give your...
Three charges (q1 = 7.4 μC, q2 = -3.5 μC,
and q3 = 3.7μC) are located at the vertices of an
equilateral triangle with side d = 9.6 cm as shown.
A charge q4 = 3.7 μC is now added as shown.
3) What is F2,x, the x-component of the new net force
on q2?
4) What is F2,y, the y-component of the new net force
on q2?
5) What is F1,x, the x-component of the new net force
on...
Two point charges, Q1 = -5.6 μC and Q2 = 1.8 μC , are located between two oppositely charged parallel plates, as shown in (Figure 1). The two charges are separated by a distance of x = 0.45 m . Assume that the electric field produced by the charged plates is uniform and equal to E = 60000 N/C . Neglect the charge redistribution in plates. Calculate the magnitude of the net electrostatic force on Q1 and give its direction.