The potential in the electric field varies as V = -ax^2 + b with respect to x-coordinate

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A positive charge +Q is fixed at a point A. Another positively charged particle of mass m and charge +q is projected from a point B with velocity u as shown in (Fig. 3.103). Point B is at a large distance from A and at distance d from the line A C. The initial velocity is parallel to the line A C. The point C is at a very large distance from A. Find the minimum distance (in meter) of +q from +Q during the motion. Take Qq=4πε0mu2d and d(2–√−1)m.
01
Sep
A positive charge +Q is fixed at a point A. Another positively charged particle of mass m and charge +q is projected from a point B with velocity u as shown in (Fig. 3.103). Point B is at a large distance from A and at distance d from the line A C. The initial velocity [...]
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Tags: The potential in the electric field varies as V = -ax^2 + b with respect to x-coordinate , where a and b are constants. Find the charge density p(x) in a space. ,
The potential in the electric field varies as V = -ax^2 + b with respect to x-coordinate, where a and b are constants. Find the charge density p(x) in a space.
01
Sep
The potential in the electric field varies as V = -ax^2 + b with respect to x-coordinate, where a and b are constants. Find the charge density p(x) in a space. The potential in the electric field varies as V = -ax^2 + b with respect to x-coordinate where a and b are constants. Find [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: The potential in the electric field varies as V = -ax^2 + b with respect to x-coordinate , where a and b are constants. Find the charge density p(x) in a space. ,