Q. 1 Two-point charges q1(3.0µC) and q2(6.0µC) are placed a distance d apart in vacuum. Calculate the Coulomb force experienced by charge q2 due to charge qi for d = 20.0cm, 40.0cm, 60.0cm, 80.0cm, 1.00m and 1.2m. Plot the force as a function of d. %3D q1 q2 d.
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Q: A plastic ring of radius R = 150.0 cm with two charged beads as shown. Bead-1 with charge (q, =…
A: Given:- R = 150 cm = 1.5 m q1 = +1 μC = 1 x 10-6 C q2 = +2 x 10-6 C Eorigin = 1 x 104 N/C
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Q: Three charges (91 = 7 µC, q2 = -4 µC, and q3 = 2.9µC) are located at the vertices of an equilateral…
A: Please note : As per answering guidelines I can answer the first three parts of a multisub-part…
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A: Electric field surrounding the charge Q2 is given by:- E=KQ1r2E=(9×109)×(8×10-6)5.42E=2469.136 N/C
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Q: Two point charges, q1 = 2.0 × 10−7 C and q2 = −6.0 × 10−8 C, are held 25.0 cm apart. (a) What is the…
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Q: Two point charges, q1=2.0×10−7Cq1=2.0×10−7C and q2=−6.0×10−8C,q2=−6.0×10−8C, are held 25.0 cm apart.…
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A: Given charges are
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- A thin rod of length L=11.7 m carries a uniform charge density =0.12 µC / m along its length. Take Coulomb's constant as k=9 x 10° N m² / C2 .Determine the magnitude of the electric field at point A. Express your answer using 1 decimal place without the units. A · x(m) 20A point charge, q = -5.0 nC, and m = 2.0 x 10-18 kg, is shot vertically upward with an initial speed of 3.0 x 105 m/s from a thin, infinite, planar sheet of uniform charge with surface charge density of σ = +4.0 . To what vertical elevation will q rise above the sheet of charge? Neglect gravity. a. 6.0 cm b. 8.0 cm c. 5.0 cm d. 4.0 cm e. 7.0 cmASAP
- A charged metal sphere of radius Rs and a charged, flat metal disk of radius Rp are connected by a long conducting wire. The sphere has a charge Qs (assume it is uniformly distributed on its surface). What is Qp, the charge on the disk (assume it is uniformly distributed on its surface)? Give your answer in nC to at least three digits to avoid being counted off due to rounding. Rs = 0.40 m, Rp = 0.33 m, Qs = 29.3 nC Sphere Qs, Rs 2D Disk QD, RDA thin rod of length L=11.7 m carries a uniform charge density =0.12 µC / m along its length. Take Coulomb's constant as k=9 x 10° N m² / C* Determine the magnitude of the electric field at point A. Express your answer using 1 decimal place without the units. A x(m) 20Three-point charges are in an x-y plane. Charge 1 has a charge of 11.2 mC, charge 2 has a charge of -19.8 μC, charge 3 has a charge -15.4mC. Charge 2 is at the origin, charge 1 is 9.4 mm to the left of charge 2, and charge 3 is 6.8 mm along the +x-axis and 3.5 mm along the y-axis. a. Determine the individual force applied by charge 1 and charge 3 onto charge 2. b. Illustrate a free-body diagram of force applied by charge 1 and charge 3 onto charge 2, then determine the net force.
- The velocity of a particle (m = 10 mg, q = - 4.0 µC) at t = 0 is 20 m/s in the positive x-direction. If the particle moves in a uniform electric field of 20 N/C in the positive x- direction, what is the particle's velocity ( in m/s) at t = 8.4 s? Select one: O A. 53.60 O B. -47.20 O C. 36.80 D. -13.60 O E. 87.20S Y q q X P X Two positive charges q are located on the y axis, symmetric with respect to the origin, a distance s apart, as shown above. a. Find a formula for the net electric field at a point P on the positive x axis, a distance x from the origin. b. What does your answer become when x >> s?a Imssb1.mutah.edu.jo Three point charges are located in the xy-plane as in the figure. Given that Q = 67.6 µC, what is the magnitude of the total electric force ( in units of N) acting on the charge Q located at the point (8, 6)? y (8, 6) 3Q 4Q Select one: O A. 8.96 В. 3.55 C. 13.84 D. 4.96 E. 31.46
- The velocity of a particle (m = 10 mg, q = - 4.0 µC) at t = 0 is 20 m/s in the positive x-direction. If the particle moves in a uniform electric field of 20 N/C in the positive x- direction, what is the particle's velocity ( in m/s) at t = 11.1 s? Select one: A. 64.40 B. -24.40 C. 42.20 D. 108.80 E.-68.80Human nerve cells have a net negative charge and the material in the interior of the cell is a good conductor. If a cell has a net charge of -7.52 pC, a. what are the magnitude and direction (inward or outward) of the net flux through the cell boundary? b. what is the volume charge density passing through the cell? Assume that the portion of the cell in question is spherical with radius r 1.2 × 10¯6m.A small mass charged sphere (q= 3 µC) is attached by an insulating string to the surface of a very large conductor with a surface charge density of o = 77.8 µC. Given that the string makes an angle with the surface equal to 30 degrees, find the tension ( in N) in the string. use eg = 8.8542x10-12 F.m1 String Select one: OA. 30.44 OB. 52.72 OC.79.08 OD. 104.16 OE 26.36