Calculate the potential energy of the +2uC charge at point P. Calculate the work done in moving the +2uC charge from far away to point P. Then calculate the work you would do to move a -2uC charge from fat away to point P.
Q: A -1.0 nC charge is moved from (2.0 cm, 2.0 cm) to (-2.0 cm, -1.0 cm) in the electrostatic field…
A: Answer 1.5 x 10-7 J (First option)
Q: An electron is in the presence of a uniform electric field and its initial position is at point A.…
A: The initial position of electron = At point A The final position of electron = At point B Electric…
Q: A 2.7-nF parallel plate capacitor with a sheet of Mylar (K = 3.1) filling the space between the…
A: Given That: Capacitance of the capacitor, C0 = 2.7 nF For sheet of Mylar, k = 3.1 Initial potential…
Q: Equal mass charges Q and 2Q have potential Vb with a certain distance between them as in the figure.…
A: Given Mass of charges m1=m2=m Charge on q1=Q Charge on q2=2Q Both charges initially at rest that is…
Q: What is the change in potential energy of a 6.0 µC charge when it is moved 3.0 m closer to a 45 μC…
A: Write the given values with the suitable variables. q1=6 μC=6×10-6 Cq2=45 μC=45×10-6 Cr1=3 mr2=2 m…
Q: Part B - Suppose that the force between the two charges is 1.42 x 10-2 N when the smaller charge is…
A:
Q: Two parallel plates are a distance 10 cm apart from each other. Their size is large compared to the…
A: Separation between plates, D = 10 cm = 10×10-2 m = 0.1 m Potential difference, V = 182 Volts…
Q: A -2.3 MicroC point charge is 6.1 mm away from a 45.2 MicroC point charge. What is the potential…
A:
Q: Two point charges, q1=q2=13nC, are located on the x-axis and is 8 meters apart. Assuming that q1 is…
A: Two point charges, q1=q2=13nC, are located on the x-axis and is 8 meters apart. Assuming that q1 is…
Q: Two point charges lie along the x axis as shown in the figure below, where q1 = -5 µc and q2 = 1 µC.…
A: Given Q1 is -5 uC Q2 is 1 uC. r is .25m
Q: A uniform electric field of magnitude 1.0 x 102 NC-1 exists between 2 conducting plates, one of…
A: The objective of the question is to calculate the potential difference between the plates, the…
Q: Work is applied to move a positive charge q from far away to a distance r from a positive charge Q.…
A: Here a positive charge q is moved a far away from Q.To acheieve same potential a charge 2q is…
Q: How much work is required to set up the arrangement of charges shown in Figure if Q=-3 µC? Assume…
A:
Q: +q 1.0 m Be 3.0 m A particle with charge, q = 1.0 µC is located as seen in Figure. If a third…
A: Given,
Q: Two particles with charges Q and -Q are fixed at the vertices of an equilateral triangle with sides…
A: Step 1 There are two particles with charges Q & -Q. The length of sides is 'a' we need to find…
Q: imagine an electron moving from left to right in a uniform electric field pointing to the right i.e.…
A: Imagine an electron moving from left to right i.e. parallel with the electron's direction of motion.…
Q: 1) Three point charges of charge Q, 2Q, and –Q are located on the corners of a right triangle with…
A: Given Data: The three-point charges are given as, q1=Qq2=2Qq3=-Q Part (a): The expression for the…
Q: Answer each of the questions with "positive," "negative," or "zero." a) The work done by an external…
A: Change in potential(∆U)= charge(q) x change in potential(∆V) Work done by external force, Wext = -∆U…
Q: A charged particle Qo=1.5 mC is initially placed in the position A at a distance d=1 mm from another…
A: The work done to move Q° from position A to B is equal to 13.5×106 J.
Q: Consider a positive charge Q₁ of magnitude 9 µC fixed at the origin with another positive charge Q₂…
A:
Q: charge Q3 is moved away to infinity by an external force. m in this process?
A:
Q: 4. A particle with a charge of +4.20 nC is in a uniform electric field E directed to the left. It is…
A:
Q: Two negative charges are at rest. Each has a charge of -0.03 C and a mass of 3.4 x 10-6 kg. a. If…
A:
Q: How much work is required to set up the arrangement of charges shown in Figure if Q=-3 µC? Assume…
A: using relation for potential energy of two point charge system
Q: At a corner of a 30 mm × 40 mm rectangle is placed a q91 = +20 µC charge of -40 µC and at the two…
A:
Q: A point charge ay 4nC ia placed at the origin, a second point charge a * -JnC ia placed on the…
A:
Q: A charge +Qis placed on a conducting ring of radius a. A charge -q is placed at a point that is on…
A: Given data The charge placed on the conducting ring is +Q. The radius of the ring is a. A charge…
Q: Learning Task 3 Solve the following problems. Show your solution. 1. Two-point charges Qi = 4.5 µC…
A:
Q: Three charges were arranged and held in place in a straight line. The distance between the first two…
A:
Q: A parallel plate capacitor has a capacitance of 3.707 μF with vacuum between the plates. A…
A:
Q: A particle with a charge of 5.5 x 10° C charge is fixed at the origin. A particle with a charge of…
A:
Q: particle of charge = 7pC is located on the -axis at the point 5.1 cm. A second particle of charge =…
A: Concept used: Electric potential is a scalar quantity. Net electric potential is found by taking sum…
Q: When a charged particle is released from rest, at any point between two parallel plates, as shown in…
A: let the charge particle 'q' between q parallel plate capacitor and more from position x1 and x2so,…
Q: A small positive test charge of 0.02C is situated 1.5m away from a positive charge of 1C and 4.2m…
A:
Q: 2.0 µC charge is placed in air. How much work needs to be done to carry a 0.05 µC of charge from a…
A: Charge, Q = 2 µC Test charge, q = 0.05 µC Locations are 50 cm to 10 cm.
Q: 1. A point particle of charge 2.5 x 109 C and a mass of 3.65 x 10*7 kg in uniform electric field…
A:
Q: Four identioal point charges (q-12.33 pC)
A: Given: q=12.33μC=12.33*10-6 C L=W=50.0cm L=W=0.50m
Q: Points A, B, and C form the vertices of a triangle in a non-uniform electrostatic field. The…
A: Solution: Let the electric potential at A, B, and C be VA, VB, and VC. Work done=Charge x Potential…
Q: How much work is required to set up the arrangement of charges shown in Figure Q =- 3 µC? Assume…
A: Potential energy: The amount of work needed to move a unit charge from a reference point or from…
Calculate the potential energy of the +2uC charge at point P. Calculate the work done in moving the +2uC charge from far away to point P. Then calculate the work you would do to move a -2uC charge from fat away to point P.
Step by step
Solved in 2 steps with 2 images
