In a rectangle `ABCD, AB = 21` and `BC = 1`. Axes `xx` and `yy` pass through centre of the rectangle. The moment of inertia is least about :
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In a rectangle ABCD, AB= 15 cm angle BAC = 60^@ then BC is equal to

In a rectangle ABCD, AB = 25 cm and BC = 15. In what ratio does the bisector of angle C divide AB?

In a rectangle ABCD,AB=20cm/_BAC=60o. Calculate side BC

In a rectangle ABCD (BC = 2AB) . The moment of inertia is maximum along axis through

If I moment of inertia of a thin circular plate about an axis passing through tangent of plate in its plane. The moment of inertia of same circular plate about an axis perpendicular to its plane and passing through its centre is

In a rectangle ABCD (BC=2AB) . The moment of inertia is minimum along axis through

Let I be the moment of interia of a uniform square plate about an axis AB that passses through its centre and is parallel to two its sides. CD is a line in the plane of the plate that passes through the centre of the plate and makes an angle theta with AB . The moment of inertia of the plate about the axis CD is then equal to-

ABCD is a rectangle with A(-1,2),B(3,7) and AB:BC=4:3 . If P is the centre of the rectangle, then the distance of P from each corner is equal to