4.50cm
Q: A 21 x 10-6 C point charge is held at rest within a uniform electric field of 865.8 N/C directed in…
A: Given data: Charge, q=21×10-6 C Electric field, E=865.8 N/C Distance moved by the charge, x=0.63 m…
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Q: Two particles, with identical positive charges and a separation of 2.42 × 10-2 m, are released from…
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Q: A small, charged particle of mass 9.42 x 10-7g and charge +4.50 x 10-12C is sent toward a fixed…
A: This question is based on Electrostatic Potential Energy topic. The electrostatic potential energy…
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Q: Three point charges are located on the x-axis at the following positions: Q1 = +2.00 µC is at x =…
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Q: A positive charge Q1 =+ 189 nC with mass M = 24 mg is released form rest at a distance r1 8 mm from…
A: Given values:- Charge(Q1)=189 nC=189 x 10-9 C ----(1) Mass,(M)=24 mg=24 x 10-6 kg ----(2)…
Q: Two positively charged spheres are shown in the figure below. Sphere 1 has twice as much charge as…
A: Given:- The change q = 5.55 nC The distance between the charge q1 and q2 is d = 0.350 m and y =…
Q: A small, charged particle of mass 8.60 x 10-7g and charge +4.50 x 10-12C is sent toward a fixed…
A: Given, mass of the particle m=8.60×10-7g charge of the particle q1=4.50×10-12C radius of the…
Q: A (negative) charge of -20 nC is placed at the origin of a coordinate system. What is magnitude and…
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Q: Two charges q, = -3.20 nC and g, = +8.89 nC are at a distance of 1.68 um from each other, a, is…
A: Given , Q1 = -3.20 nc Q 2= 8.89nc
Q: Two stationary positive point charges, charge 1 of magnitude 3.05 nCand charge 2 of magnitude 1.60…
A: Given data: Stationary charges, q1 =3.05 nC =3.05×10-9Cq2 =1.60nC =1.60×10-9C Distance of separation…
Q: Four identical metallic objects carry the following charges: +1.96, +6.43, -4.96, and -9.55 μC. The…
A: Given Data :there are 4 identical metallic object and charges on the is given asq1 = 1.96 μCq2 =…
Q: Find the magnitude of charge on one of the balls.
A: Coulomb's Law of Electrostatic forces The force between two charges q1 and q2is directly…
Q: point charge with a charge q1 = 3.00 μC is held stationary at the origin. A second point charge with…
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Q: Positive point charges g = 9.00 µC and q' = 2.00 µC are moving relative to an observer at point P,…
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Q: We have four charges, each of which has size given by some integer A, B, C, or D times q, where…
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Q: Two point charges, 1=0.725 µC and 2=−0.707 µC, are held 141.6 cm apart. What is the magnitude of…
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Q: Three charges, q1 = 1 µC, q2 = 2 µC and q3 = 3 µC are placed in a line with 20 cm between each of…
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Q: ge q₁ = 2.50 nC is at x₁ = 0 and charge q₂ = 7.50 nC is at x₂ = 4.50 m. At what point between the…
A: Given value--- q1 = 2.50 nC at x = 0 m. q2 = 7.50 nC at x = 4.50 m. We have to find--- At what…
Q: Two parallel plates of charge (+) and (-) are placed with a distance of d = 5 mm (see picture). The…
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Q: A small metal sphere, carrying a net charge of qt= +7.5 mC, is held in a stationary position by…
A: Write the given values of this problem. q1=+7.5 mC or +7.5×10-3 Cq2=+3 mC or+3×10-3 Cm=2 g or 2×10-3…
Q: A charge Q= 3nC is uniformly distributed over a ring of radius a = 6 cm. An electron is released…
A: (given) Charge (Q) = 3 nC…
Q: A point charge q₁ = 5.00 μC is held fixed in space. From a horizontal distance of 6.00 cm, a small…
A: The objective of the question is to find the distance from the fixed charge at which the moving…
Q: Two red blood cells each have a mass of 9.05 x 10-14 kg and carry a negative charge spread uniformly…
A: Given data, Mass of two red blood cells m=9.05×10-14 kg Charges q1=-3 pC =-3×10-12 Cq2=-2.90 pC…
Q: Two particles, with identical positive charges and a separation of 2.00 x 102 m, are released from…
A: Given - Separation between two charges(r) = 2 x 10-2 m Acceleration of particle 1 (a1) = 6.85 x 103…
Q: Two point charges are fixed on the x-axis as follows: Q1 = +5.00E-6 C is located at x = +0.300 m and…
A: To find the net electrical force exerted by Q1 and Q2 on Q3, we can calculate the individual forces…
Two point charges q1, and q2 are held in place 4.50cm apart as shown in figure. Another point
charge Q = -1.75 µC of mass 5.00g is initially located 3.00cm from each of these charges and
released from rest. You observe that the initial acceleration of Q is 324 m/s2
upward, parallel to the
line connecting the two point charges. Find q1 and q2.
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- Two point charges q1 and q2 are held in place 4.50 cm apart. Another point charge -1.95 μC of mass 5.50 gg is initially located 3.00 cm from each of these charges (the figure(Figure 1)) and released from rest. You observe that the initial acceleration of -1.95 μC is 314 m/s^2 upward, parallel to the line connecting the two point charges.The distance between two charges gl = +2uC and q3 - +6uC is 20cm. Calculate the distance from charge ql to the points on the line joining the two charges where q2 = +1µC does not move.A small, charged particle of mass 4.30 x 10-8g and charge +1.92 x 10-13C is sent toward a large fixed, flat sheet (0.50m x 0.50m) of metal that has a net charge of 1.33 x 10-6C. If the particle is moving with a speed of 18m/s when it is 8.00cm away from the sheet, does the particle strike the sheet? If so, what is the particle’s speed just before hitting the sheet? If the particle does not strike the sheet, what is its closest distance to the sheet?
- Two negative charges, each with a charge of -7.7 nC, are at fixed locations as shown below. A proton is launched from the midpoint of the line joining the charges in a direction perpendicular to the line joining the charges. Find the minimum initial velocity of the proton that will allow it to escape to infinity. Ignore gravitational or any other influences on the proton. (k=1/480 = 8.99 × 109 Nm²/C2, e = 1.60 × 10-19 C, mproton = 1.67× 10-27 kg). [Hint: Conservation of energy might be helpful and you can assume that the proton is at rest at infinity] 5.0 mm 5.0 mm V 8.9 × 106 m/s 1.8 × 107 m/s None of these 4.6 × 106 m/s 2.3 × 106 m/sTwo point charges are fixed on the x-axis as follows: Q1 = +5.00E-6 C is located at x = +0.300 m and Q2 = –7.00E-6 C is at x = +0.600 m. What are the magnitude and direction (use positive sign for +x and negative sign for –x directions) of the net electrical force exerted by these two charges on a third charge Q3 = –8.23E-6 C placed at the origin, Q3 = 0.00 m (in Newtons)? If two electrons are placed each 2.11E-10 m from a proton as shown, what is the magnitude of the net electrical force they exert on the proton (in Newtons)? (USE THE PICTURE I POSTED FOR THIS QUESTION WITH THE 45 DEGREE ANGLE) If two electrons are placed each 2.11E-10 m from a proton as shown, what is the magnitude of the net electrical force they exert on the proton (in Newtons)? On the x axis, a point charge Q1 = +4.80E-6 C is placed at the origin x = 0.00 m, and another point charge Q2 = +5.74E-6 C is placed at x = +5.00 m. Now the third point charge Q3 = –3.60E-6 C is placed on the x axis between Q1 and…The figure shows 2 charges q1= 1.5 MC and q2=2.3 MC separated by L=13 cm At what point x, E=0?
- A point charge of +1.0 μC is held fixed at the origin. A second charge of -1.0 μC and mass 4.6 ×10−2kg is placed on the x axis and released. Where should the charge be placed so that its initial acceleration will be +1.0 m/s2 ? (Neglect gravity.) Express your answer with the appropriate units.Charged particles q1=−q1=− 4.00 nCnC and q2=+q2=+ 4.00 nCnC are separated by distance 3.90 mmmm , forming an electric dipole. Find the magnitude of the electric dipole moment. Express your answer in coulomb meters to three significant figures.