The magnitude of electric field inten...

The magnitude of electric field intensity at point `B(x,0,0)` due to a dipole of dipole moment , `vec(P) - P_(0) ( hat(i) + sqrt(3)hat(j))` kept at origin is `sqrt(n) ((kp_(0))/(r^(3)))`, find n (assume that the point is at large distance form the diople , `k = (1)/(4 pi in_(0))` .

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To solve the problem, we need to find the value of \( n \) in the expression for the electric field intensity at point \( B(x, 0, 0) \) due to a dipole with dipole moment \( \vec{P} = P_0 (\hat{i} + \sqrt{3} \hat{j}) \) located at the origin. ### Step-by-Step Solution: 1. **Understanding the Dipole Moment**: The dipole moment \( \vec{P} \) is given as \( P_0 (\hat{i} + \sqrt{3} \hat{j}) \). This indicates that the dipole is oriented at an angle from the x-axis. 2. **Finding the Angle \( \theta \)**: ...

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The magnitude of electric field intensity at point `B(x,0,0)` due to a dipole of dipole moment , `vec(P) - P_(0) ( hat(i) + sqrt(3)hat(j))` kept at origin is `sqrt(n) ((kp_(0))/(r^(3)))`, find n (assume that the point is at large distance form the diople , `k = (1)/(4 pi in_(0))` .

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