x = -0.800 m x = 0.800 m (a) What is the net force (in N) exerted by the two 3.20-uC charges on the charge q? (Enter the magnitude.) (b) What is the electric field (in N/C) at the origin due to the two 3.20-uc particles? (Enter the magnitude.) V N/C (c) What is the electrical potential (in kV) at the origin due to the two 3.20-uc particles? What is the contribution to the potential due to one of the 3.20-µc charges? How do you then account for both charges? kV (d) What If? What would be the change in electric potential energy (in J) of the system if the charge q were moved a distance d = 0.400 m closer to either of the 3.20-uc particles? EX J Enter a number.
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- Path of trajectory AV An electron is fired at a speed vj = 4.7 x 106 m/s and at an angle 0; = 37.1° between two parallel conducting plates as shown in the figure. If s = 2 mm and the voltage difference between the plates is AV = 99.6 V, determine how close, w, the electron will get to the bottom plate. Put your answer in meters and include at 6 decimal places in your answer. Do not include units. The x-axis of the coordinate system is in the middle of the parallel plate capacitor.Two concentric spherical conducting shells are separated by vacuum. The inner shell has total charge +Q and radius a, and outer shell has charge -Q and radius b. Using integration of the electric field energy density find the electric energy stored in the system. Take Q = 28 µC, a = 20 cm and b = 70 cm. I 1 The energy, U₁ = 12.582440✔✔ Units J The energy, U₁ a = = Using the obtained energy and formula for the energy stored in a capacitor, U capacitance of the system. The capacitance, Co 3.1154528 X Units Select an answer ✓ Repeat the calculations for the same system with a dielectric material of k = 4.5 inserted in between the shells. The capacitance, C₁ = -Q Units Select an answer ✓ .37489732 X Units pF Q² 20¹ find theIn nuclear fission, a nucleus splits roughly in half. a)What is the potential (in V) 4.50 ✕ 10−14 m from a fragment that has 50 protons in it? and b) What is the potential energy in MeV of a similarly charged fragment at this distance?
- Three charges are placed on a line with q1= 15 mC, q2 = 20 mC and q3 = -70 mC. Here d = 10 cm and h = 7 cm. Find the electric field (magnitude and direction) and the electric potential at the location of the X.Cathode ray tubes (CRTS) used in old-style televisions have been replaced by modern LCD and LED screens. Part of the CRT included a set of accelerating plates separated by a distance of about 1.56 cm. If the potential difference across the plates was 30.0 kV, find the magnitude of the electric field (in V/m) in the region between the plates. HINT V/mAn electric field does 1.69 ✕ 103 eV of work on a carbon nucleus of charge 9.61 ✕ 10−19 C. Find the change in the nucleus' electric potential and electric potential energy in joules. HINT (a) change in electric potential (in V) V (b) change in electric potential energy in joules J
- Show that the force on each plate of a parallel plate capacitor has a magnitude equal to (½) QE, where Q is the charge on the capacitor, and E is the magnitude of electric field between the plates. Explain the origin of the factor ½.Lned weu/ student/Assignment-Responses/submit?dep=27380743&tags=autosave#Q5 15.0 V 10.0 V 30.0 V 35.0 V 45.0 V D 20.0 V 25.0 V Find the work W.n in electron volts done by the electric force on a proton that moves from point A to point B. Similarly, find Wac Wan, and WAE: (Assume the proton starts and stops at rest. Enter your answers AB in ev.) HINT (a) W AB The work done by any conservative force can be related to the change in an associated potential energy: W = -APE. eV (b) WAC 25 X ev (c) WAD 45 x ev (d) WAr 45 Xev 2:17 PM P Type here to search (? 9/13/2021A particle of mass 6.4 g and charge 21.5 µC is moving in an electric potential field V(x, y) = C₁ x - C₂ ⋅ y² + c3・y.x², C1 • where c₁= 65 V/m, c2= 45 V/m², and c3= 20 V/m³. Find the electric field acting on the particle as a function of its position. Use V/m and meters for the units, but do not put them explicitly in Ē(x, y). The x-compoment of the E-field, Ex(x,y) = Units Select an answer ✓ The y-compoment of the E-field, Ey(x, y) = What is the magnitide of the particle's acceleration at x = 1 m and y = -1 m? The acceleration, a = Units Select an answer ✓ Units Select an answer ✓
- Please asapDon't use chatgpt, please help.3a. What is the potential energy U of this lightning bolt? U = 310 Joules of the square? Find 30 (1.0x10) 3b. If all this energy where to be converted to kinetic energy, what would be the speed of a m = 1000 kg car. Vf = r16 = 34 = m/s 16. These charges are numbered as: raw the re Redraw the rectangle with the actual charges (evaluate 2q1, 492, etc.) 16a. What is the distance between the indicated pairs of charges. Find these in meters. r24 = r26 = 15 = 35 = 1 2 3 MI 4 5 6 ainT 16b. Starting with all the charges at ∞, what is the potential at the upper left corner, and how much work is done to put the charge at the upper left corner? V₁ = 05 P278 Volts W₁ = Joules V3 = V13 + V23 = | srpC = 10-12 C on m 16c. What is the potential at the location of 2, due to the previous charges? How much work is done to bring in the 2nd charge? Make sure you use the correct distance. V₂ = V12 = Volts W₂ = 16d. What is the potential at the location of 3, due to the previous charges? How much work is…