Three identical conducting spheres are each placed 1.5cm apart. Sphere A is given a charge of qa=-12uC, sphereB is neutral, and sphere C is given a charge of qc=+7µC. All three spheres are then touched together andreplaced to their original locations.Q=-12µCQg=0µCQ=+7µCInitially:Aa.What are the charges on each sphere after they are replaced?TouchAtogetherReplaced:A1.5 cm1.5 cmb. How many electrons were transferred to or from sphere C when all the spheres were touched together?Were they added to or removed from sphere C?c. After the spheres are replaced, what is the total force acting on sphere A?d. After the spheres are replaced, what is the total force on sphere B?

Since you have posted a question with multiple sub-parts, we will solve the first three subparts for…

Answered: Three identical conducting spheres are…

Similar questions

This time your object has a mass of 41.5 kg. Now imagine taking all the protons out of the object and stuffing them into a box. Also take all the electrons out of the object and stuff them in a second box. How much charge is contained in the box with all the protons? 7.96E+09 C 9.95E+08 C 1.99E+09 C 3.98E+09 C
A glass rod that has been charged to +12.0 nC touches a metal sphere. Afterward, the rod’s charge is +8.0 nC.a. What kind of charged particle was transferred between the rod and the sphere, and in which direction? That is, did it move from the rod to the sphere or from the sphere to the rod?b. How many charged particles were transferred?
Metal spheres A and B are identical except that sphere A has a charge of -2.0 nCnC while sphere B has a charge of +4.0 nCnC. Part A If the spheres are brought into contact, do electrons move from A to B or from B to A? Electrons move from A to B Electrons move from B to A
Object A and Object B are neutral and were rubbed against each other with the aim of facilitating charging by friction. In the process Object A gains 100 quadrillion (1000 trillion) electrons. Which of the following is/are valid? Select all correct options. a. Object B has a charge of -0.016020C b. Object B has a charge of 0.190200C c. Object A has a charge of 0.016020C d. Object A has a charge of -0.052866C e. Object A has a charge of -0.016020C f. Object B has a charge of 0.016020C g. Object A has a charge of -8.602000C h. Object B has a charge of 0.113742C
A system of 1565 particles, each of which is either an electron or a proton, has a net charge of -3.952×10-17 C. Part A How many electrons are in this system? 15. ΑΣΦ N₂ = Submit Request Answer Part B What is the mass of this system? Π| ΑΣΦ M = Submit Request Answer www ? ? pod kg
Hw.62
A conducting massive sphere of radius a is surrounded by a thin conducting spherical shell of radius b as shown in the figure. The sphere (a) is grounded and the outer shell is charged with electric charge Q b a Find the electrostatic energy stored in the system (in SI units). Select one: Q² a. U ○ b. U = ○ C. U = ○ d. U = ○ e. U = ○ f. 8πEO U = Q2 8πε Q2 8πεο Q² όπερα Q² σπερ b- a ab b a +a a3 a Q² b-a 8πTEO b2 ×
A spherical metallic object with a hole inside initially holds a net charge of g = 2.50 nC. Then a particle with a charge of g = -4.75 nC is placed at the center of the hole (beld by a perfect non-polarizable insulating material). The value of the net charge q2 on the outer surface of the conductor, upon reaching electrostatic equilibrium, is most nearly A. -7.25 C. B. 7.25 nC. C.-4.75 nC. D. -2.25 nC. E. 2.25 nC.
Most workers in nanotechnology are actively monitored for excess static charge buildup. The human body acts like an insulator as one walks across a carpet, collecting -50 nC per step. What charge buildup will a worker in a manufacturing plant accumulate if she walks 31 steps? charge buildup from 31 steps: How many electrons are present in that amount of charge? electrons present: nC maximum number of steps: electrons If a delicate manufacturing process can be damaged by an electrical discharge greater than 1012 electrons, what is the maximum number of complete steps that any worker should be allowed to take before touching the components? steps
As shown below, an alpha particle (m = 6.642 × 10-27 kg, q = +2e) is shot upward with an initial speed of v; = 3.50 x 105 m/s from one large plate of charge toward another large plate of 8. charge. Each plate has a charge density given below. Assume gravity is negligible. а. Find the speed of the alpha particle once it hits the positively charged plate. b. Which plate is at the higher potential, the top plate or the bottom plate? Explain using physical reasonng. 02 = +2.50 µC/m² 2.00 mm V; = 3.50 × 10° m/s 01 = +4.50 µC/m²
IP A particle with a mass of 4.0 g and a charge of +5.0x10-2 μC is released from rest at point A in the figure (Figure 1). Figure Ag 3.0 cm во 5.0 cm 4.0 cm OC E 1 of 1 L X > In which direction will this charge move? Positive Y- direction Negative y- direction Negative x-direction Positive x-direction Submit Part B V= Request Answer What speed will it have after moving through a distance of 5.5 cm ? The electric field has a magnitude of 1600 N/C Express your answer using two significant figures. 15. ΑΣΦ SFR P Pearson ? m/s
This time your object has a mass of 20.4 kg. Now imagine taking all the protons out of the object and stuffing them into a box. Also take all the electrons out of the object and stuff them in a second box. How much charge is contained in the box with all the protons? Question 2 options: 3.90E+09 C 4.89E+08 C 9.77E+08 C 1.95E+09 C

SEE MORE QUESTIONS