Three equal point charges, each with charge 1.10 μC , are placed at the vertices of an equilateral triangle whose sides are of length 0.450 m . What is the electric potential energy U of the system? (Take as zero the potential energy of the three charges when they are infinitely far apart.) U= ? J
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Three equal point charges, each with charge 1.10 μC , are placed at the vertices of an equilateral triangle whose sides are of length 0.450 m . What is the electric potential energy U of the system? (Take as zero the potential energy of the three charges when they are infinitely far apart.)
U= ? J
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- Two point charges Q1 = +5.80 nC and Q2 = −2.70 nC are separated by 45.0 cm. (a) What is the electric potential at a point midway between the charges? (b) What is the potential energy of the pair of charges? What is the significance of the algebraic sign of your answer? Positive work must be done to separate the charges.Negative work must be done to separate the charges.A SYSTEM OF TWO ELECTRIC CHARGES (in J) a OA: 3.476x102 91 What is the potential energy of this system of two charges? 91 0.3 mC; 92 = 0.6 mC; mC = 0.001 C; a = 0.6 m; b = 0.2 m. O OB: 4.623x10² 92 OC: OD: OE: 6.148x102 8.177x102 1.088×103 OF: 1.446x103 OG: 1.924×103 OH: 2.559×103All questions are related. Joules= -0.183J
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- Three charges are placed at the corners of an equilateral triangle with sides of length 2.0 m as shown in the figure below. a) Calculate the total electric potential energy of the group of charges. b) Determine the electric potential at the midpoint of side 1 in the triangle. side 1 9₂ +4.0 μC 60° 4.0 με q₁ 60° 60% 8 +2.0 μεTwo point charges (+17.10 nC and -17.10 nC) are located 8.00 cm apart. Let U = 0 when all of the charges are separated by infinite distances. What is the potential energy if a third point charge q = −4.20 nC is placed at point b? 8.00 cm 8.00 cm b 4.00 +4.00 +4.00 cm cm cmYour answer is partially correct. The drawing shows a square, each side of which has a length of L = 0.250 m. Two different positive charges 91 and q2 are fixed at the corners of the square. Find the electric potential energy of a third charge q3 = -3.00 x 109 C placed at corner A and then at corner B. EPEA= EPEB= I 0 > Ma Me Jhin die A 91 = +1.50 × 10-⁹ C 92= +4.00 x 10 c
- Three charges q1 = -3.40 nC, q2 = 4.00 nC, q3 = 13.00 nC are separated by a distance L = 2.60 m. Determine the electric potential at point Z in the center of the triangle connecting the charges.Two charges of 18 µC each are placed on the corners of an equilateral triangle of side 0.6 m. How much work is required to move another charge of 6 µC from infinity (where potential energy = 0) to an empty corner?Needs Complete typed solution with 100 % accuracy.