A semi circular current loop is placed in an uniform magnetic field of 1 tesla as shown. If the radius of loop is 1m, the magnetic force on the loop is

Wires 1 and 2 carrying currents $i subscript 1 end subscript$ and $i subscript 2 end subscript$ respectively are inclined at an angle $theta$ to each other. What is the force on a small element dl of wire 2 at a distance $r$ from wire 1 due tomagnetic field of wire 1 ?

An electron accelerated through a potential difference 'V' passes through a uniform transverse magnetic field and experiences a force F. If the accelerating potential is increased to 2V, the electron in the same magnetic field will experience a force

A plane metallic sheet is placed with its face parallel to lines of magnetic induction B of a uniform field. A particle of mass m and charge q is projected with a velocity $v$ from a distance ' d ' from the plane normal to the lines of induction. Then the maximum velocity of projection for which the particle does not hit the plane is,

Chemistry-

Which of the following describes the criterion of spontaneity

Chemistry-General

Chemistry-

A solution of sodium sulphate is electrolyzed using inert electrodes and the gases evolved are stored in a container. What is the mole fraction of gas in container which have higher concentration.

Chemistry-General

The function 2x³ – 9x² + 12x – 3 is increasing when x belongs to the interval

We should know the way to find the minimum or maximum value.

The function 2x³ – 9x² + 12x – 3 is increasing when x belongs to the interval

We should know the way to find the minimum or maximum value.

The area of a triangle is measured in terms of b, c, A If A = 63^º and there is an error of 15 in A, the percentage error in the area is

The point on the ellipse 16x² + 9y² = 400 where ordinate decrease at the same rate at which the abscissa increases is

For such questions, we should know how to find the derivates. We should know the concept of abscissa and ordinate.

The point on the ellipse 16x² + 9y² = 400 where ordinate decrease at the same rate at which the abscissa increases is

For such questions, we should know how to find the derivates. We should know the concept of abscissa and ordinate.

The displacement of a particle in time ‘t’ is given by S = t³ – t² – 8t – 18. The acceleration of the particle when its velocity vanishes is

For such questions, we should know relation between displacement, velocity and time. We should also know how to find first and second order derivate.

The displacement of a particle in time ‘t’ is given by S = t³ – t² – 8t – 18. The acceleration of the particle when its velocity vanishes is

For such questions, we should know relation between displacement, velocity and time. We should also know how to find first and second order derivate.

If $S subscript n end subscript equals stretchy sum from k equals 1 to n of a subscript k end subscript$ and $stack l i m with n rightwards arrow infinity below a subscript n end subscript equals a comma$ then $stack l i m with n rightwards arrow infinity below fraction numerator S subscript n plus 1 end subscript minus S subscript n end subscript over denominator square root of stretchy sum from k equals 1 to n of k end root end fraction$ is equal to

$stack l i m with n rightwards arrow infinity below open square brackets fraction numerator 1 over denominator n to the power of 3 end exponent plus 1 end fraction plus fraction numerator 4 over denominator n to the power of 3 end exponent plus 1 end fraction plus fraction numerator 9 over denominator n to the power of 3 end exponent plus 1 end fraction plus horizontal ellipsis horizontal ellipsis. plus fraction numerator n to the power of 2 end exponent over denominator n to the power of 3 end exponent plus 1 end fraction close square brackets equals$

$stack l i m with x rightwards arrow 0 below fraction numerator square root of 1 plus x end root minus square root of 1 minus x end root over denominator sin to the power of negative 1 end exponent invisible function application x end fraction equals$

The figure shows a transparent slab of length 1 m placed in air whose refractive index in x direction varies as $mu equals 1 plus x to the power of 2 end exponent left parenthesis 0 less than x less than 1 right parenthesis$ . The optical path length of ray R will be

A parallel beam of light 500 nm is incident at an angle 30° with the normal to the slit plane in a young's double slit experiment. The intensity due to each slit is Io. Point O is equidistant from $S subscript 1 end subscript$ and $S subscript 2 end subscript$ . The distance between slits is 1 mm.