Two charges, Q1=-9.6 μC and Q2=-5.8 nC with masses m1=973.6 gram
and m2=8.0 gram were located 5.6 cm from each other. Charge q1 was
held in place, but charge Q2 was released and allowed to
move.
How fast will charge Q2 be moving when the distance between the
charges has increased to 81.0 cm?
Two charges, Q1=-9.6 μC and Q2=-5.8 nC with masses m1=973.6 gram and m2=8.0 gram were located...
Two point charges are located along the x axis: q1 = +5.8 μC at x1 = +3.8 cm, and q2 = +5.8 μC at x2 = −3.8 cm. Two other charges are located on the y axis: q3 = +3.1 μC at y3 = +4.9 cm, and q4 = −8.2 μC at y4 = +6.9 cm. Find the net electric field (magnitude and direction) at the origin.
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.
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 charges q1 = −3.20 nC and q2 = +8.36 nC are at a distance of 1.43 µm from each other. q1 is fixed at its location while q2 is released from rest. (b) The charge q2 has a mass m2 = 7.85 µg. What is its speed when it is 0.340 µm from q1?
Three charges (q1 = 7 μC, q2 = -5.6 μC, and q3 = 2.9μC) are located at the vertices of an equilateral triangle with side d = 8.5 cm as shown A charge q4 = 2.9 μC is now added as shown. What is F2,x, the x-component of the new net force on q2? 3) 43 91 A charge q4-2.9 HC is now added as shown What is F2,x, the x-component of the new net force on q2? N Submit...
Three charges (q1 = 7 μC, q2 = -5.6 μC, and q3 = 2.9μC) are located at the vertices of an equilateral triangle with side d = 8.5 cm as shown A charge q4 = 2.9 μC is now added as shown. 3) 43 91 A charge q4-2.9 HC is now added as shown What is F2,x, the x-component of the new net force on q2? N Submit You currently have 7 submissions for this question. Only 10 submission are...
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 = 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?
Two point charges, q1 = 4 nC and q2 = 10 nC, are located (2, 1) and (10, 7). If the coordinates are measured in cm, determine the force on q2 from q1.
Iwo particles, with charges of q1-90.U nC and q2 =-90.0 nC, are placed at the points with coordinates (0, 12.00 cm) and (0,-12.00 cm) as shown in the figure below. A particle with charge q3-45.0 nC is located at the origin. (a) Flnd the electric potentlal energy of the conflguratlon of the three fixed charges (b) A fourth particle, with a mass of 2.28 x 10-13 ka and a charge of q4 = 180.0 nC, is released from rest at...