Two point charges, A & B (qA = -80 ?C & qB = 168 ?C), are separated by an unknown distance. The distance between A & P is 22 cm. The potential at point P (see below) is zero. Determine the distance between A & B. distance between A & B =

Two point charges, A & B (qA = -80 ?C & qB = 168 ?C), are separated by an unknown distance. The distance between A & P is 22 cm. The potential at point P (see below) is zero. Determine the distance between A & B. distance between A & B =

Related questions

Q: 0.200 m -2.00 µC +6.00 µC 0.200 m 0.200 m +4.00 uC Three point charges, -2.00 µ C, +4.00 µ C, and…

A: Solution:-Given that

Q: Two very long L=70m concentric cylindrical shells of radii a=18cm and b=39 cm carry uniform charges…

A: Let ΔV be defined as then potential difference. Therefore, ∆Vb→a=∫baE.dr Here, E is the electric…

Q: the shells is E = = -k r2 where Q=7µC, determine the potential difference between the shells;…

Q: A+4.0 µC point charge and a - 4.0 µC point charge are placed as shown in the figure. What is the…

A: Given that:- K=8.89×10^9 Nm^2/C^2 Approx equal to 9×10^9

Q: The figure below shows two point charges q1 = +5.4 10-8 C and q2 = -5.9 10-8 C. (a) Find the…

Q: A 3.5 cm-diameter isolated metal sphere carries a net charge of 0.89 μC. a) What is the potential…

Q: Two point charges Qi = -70.0 µC and Q2 = 30.0 µC are separated by a distance d1 = 30.0 cm, as shown…

A: Potential at a distance r due to a charge q is given by, V=14πε0qr

Q: Three equal charges of +25 mC are placed on the three consecutive corners of a square 10 cm on a…

Q: 5. Three point charges, q 10 uC, q2 =-15 uC and qs 8 µC are fixed at the positions shown below. (a)…

A: (given) Three point charges are q1=10 μC =10×10-6 Cq2=-15 μC =-15×10-6 Cq3=8 μC =8×10-6 C…

Q: An electrostatic paint sprayer has a 0.200 m diameter metal sphere at a potential of 30.0 kV that…

Q: A+3 C charge sits 50. cm away from a -6 uC charge. Find the Electric Potential 30 cm below the 3uC…

A: The electrostatic potential due to a charge Q at a point r distance away is given as:V=kQr………(1)…

Q: Identical 7 μC charges are located on the x-axis at x = 4 m and x = -4 m. Point A is on the y-axis…

Q: See the figure below. Two point charges q₁=5.40 µC and q₂= -8.50 µC are 0.100 m apart. Point A is…

A: Given: The two charges q1 = 5.40 microcoulomb, q2 = - 8.50 microcoulomb. Required: Type of electric…

Q: Two very long L=53m concentric cylindrical shells of radii a=19cm and b=31 cm carry uniform charges…

Q: Two positive point charges are placed at the opposite corners of a rectangle as shown in the figure.…

A: Given information: The charges q1=9.0 μC q1=16.0 μC The distance of point A from q1=9.0 μC is a=6 m…

Q: In the diagram below, particle A has a charge of -300 μC and is 3.5 m away from point P. Particle B…

Q: A-3.0-uC point charge and a -9.0-µC point charge are initially extremely far apart. How much work…

A: According to work energy theorem Work done = change in kinetic energy

Q: A 3 µC point charge is placed at the origin as shown in the figure above, where a = 2 cm, b= 2.8 em,…

A: Given, Point charge is q=3μC=3×10-6C distance between charge and point A is a=2cm=0.02m distance…

Q: Calculate the potential at the point P at a distance D=2.07 m from one end of the horizontal rod.…

Q: An electrostatic paint sprayer has a 0.150 m diameter metal sphere at a potential of 10.0 kV that…

Q: Two point charges Q1=+50 μC and Q2=-30 μC are 70 cm apart. What is the potential at a point between…

A: The expression for the required electric potential is,

Q: Two point charges Q1 = -80.0 µC and Q2 = 40.0 µC are separated by a distance di = 10.0 cm, as shown…

Q: Two point charges, q1 = charge with q3 = 4.0 µC and mass m = 4.0 g travels towards the two charges…

Q: Part B: Zero potential Two point charges, A & B (QA = 70 μC & qB = -518 μC), are separated by 29 cm.…

Q: y, cm 42 10 B х, ст 10 20

A: as we know potential at a point due to a point charge is , v=kq/r, r=distance from charge

Q: A small object with a mass of 450 μg carries a charge of 35.0 nC and is suspended by a thread…

A: Given: Mass of object(m) = 450×10-9 kg Charge of object(q) = 35×10-9 C Plate…

Q: Two equal point charges are separated by a distance 2d. When the separation is reduced to d/2 and…

A: Consider the charge will be q initially.The formula for the electric potential energy is:

Q: Find the potential at point P. All charges equal to TµC. P q1 5m 93 96 3m 94 5m 95

A: Given that each charge = 1 μC side of the cube is a = 5 m

Q: Two very large concentric spherical shells of radii a=177m and b=377 m carry uniform charges -Q and…

A: Given: Radius a=177 m Radius b=377 m Charge Q=8μC=8×10-6 C Electric field E→=-kQr2r^

Q: The figure below shows two point charges 9₁ = +4.9 × 10-8 C and 92 = -6.5 x 10-8 C. y, cm 10 91 ΤΑ…

A: Charge is placed at origin.Charge is placed at The point A is at The point B is at Note:Coulomb…

Q: A small spherical object carries a charge of 2.50 nC. (Note: Assume a reference level of potential V…

A: Charge on object Q = 2.50 nC = 2.50 * 10-9 C We need to find the distance from center of this object…

Q: How much excess charge must be placed on a copper sphere 6.7 cm in diameter so that the potential of…

Q: Three point charges are placed at distances of d, 2d, and 3d from a point P. The particle that is 2d…

A: According to question we need to find that for which value of charges , the potential at point P…

Q: Two identical charges q = (1/9.0) × 10−9 C are shown in the figure below. Find the potential at P.

A: q = 19 × 10-9 C r = 1.66 m θ = 45° To find = potential at P

Q: Two rods of equal length L 1.03 m form a symmetric cross. The horizontal rod has a charge of Q-500…

A: Basic concept of potential due to point charge and uniform Linear charge density: Potential at any…

Q: If measured from a distance of 6 m from the point charge, what is the potential.

A: The potential due to a point charge 'q' at a distance 'r' is given by V = kqr where k is a constant…

Q: Two very long L=51m concentric cylindrical shells of radii a=14cm and b=37 cm carry uniform charges…

Q: How much excess charge must be placed on a copper sphere 4.4 cm in diameter so that the potential of…

A: Given data: The radius of the sphere is ra=4.4 cm=0.044 m The potential is V=0.27 kV=270 V

Q: Two point charges of magnitude 5.0nC and -3.0nC are separ

A: potential due to charge 5nC and -3nC charge at an infinitely far away point is 0 as the potential is…

Q: 10 y (cm) O -5 0.25 -10L -10 0 -0.25 -5 0.5 0.5 -0.5 0 x (cm) 5 10 In this contour plot you can see…

Q: The circular arc in the figure below has a uniform charge per unit length of 3.50 10-8 C/m. Find…

A: The electric potential at the centre of a circle is: V=kQR where, V= Electric potential Q= charge…

Q: Two point charges, +3.40 µC and -8.90 μC, are separated by 3.10 m. What is the electric potential…

A: Given Data :q1 = 3.40 μCq2 = -8.90 μCDistance between charges r = 3.10 mDistance of mid point from…

Q: The yz-plane contains a uniform sheet of charge with ps1=9 pC/m2, A second sheet with ps2=-3 pC/m…

Q: A 5.5 μC charge moves 6.0 m from point A and 8.0 m to point B. Determine the potential at point A…

A: Given data: Magnitude of charge, q=5.5 μC=5.5×10-6 C Distance of charge from point A, rA=6 m…

Question

Two point charges, A & B (q_A = -80 ?C & q_B = 168 ?C), are separated by an unknown distance. The distance between A & P is 22 cm. The potential at point P (see below) is zero. Determine the distance between A & B.

distance between A & B =