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The magnitude of the torque acting on the dipole is 8 α. To calculate the magnitude of the torque acting on the dipole, we begin by determining the dipole moment p p. To calculate torque acting on the dipole, we need to first calculate the electric dipole moment of the system.
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The magnitude of the torque, when the dipole is oriented at an angle θ with respect to the electric field, is given by t = pesin (θ), where t is the torque, p is the dipole. The magnitude of the tor. Calculate the maximum torque for this dipole if e = 5 × 10 5 n/c.
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Two charges of 4 μc and + 4 μc are placed at the points a (1, 0, 4) m and b (2, 1, 5) m located in an electric field e → = 0 20 i ^ v cm 1.
Given e = 0.20 i v/cm = 20 i v/m (converting cm to m), we have: Τ = p x e. The torque (τ) acting on a dipole in an electric field (e) is given by the cross product: The electric dipole moment is given by the product of the magnitude of the charge.
For a dipole, q = 2 × 10 6 c and d = 0.0 l m. Two charges of −4 μc and + 4 μc are placed at the points a (1,0,4) m and b (2,−1,5) m located in an electric field e = 0.20 i v/cm. Find the total charge and electric dipole.
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