Find the dimensions of a/b in the relation `F=a sqrt(x)+"bt"^(2)`, where F is force, x is distance and t is time.

The dimensions of a/b in the equation P=(a-t^(2))/(bx) where P is pressure, x is distance and t is time are

Write the dimensions of a and b in the relation , P = (b-x^(2))/(at) , where P is power ,x is distance and t is time

Write the dimensions of a and b in the relation , P = (b-x^(2))/(at) , where P is power ,x is distance and t is time

Which of the following physical quantities represent the dimensions of (b)/(a) in the relaction P=(x^(2)-b)/(at ) , where p is power x is distance and t is time

Write the dimensions of a//b in the relation P = ( a - t^(2))/( bx) , where P is the pressure , x is the distance , and t is the time .

Write the dimensions of a xx b in the relation E = ( b - x^(2))/( at) , where E is the energy , x is the displacement , and t is the time.

Test dimensionally if the formula t= 2 pi sqrt(m/(F/x)) may be corect where t is time period, F is force and x is distance.

Consider the equation F=(a^(2))/(b)e^(-(bx)/(E )) where F is force x is distance E is energy and a, b are constants. What are the dimensions of a and b?

Force is given by the expression F = A cos (Bx) + C cos (Dt), where x is displacement and t is time. The dimension of (D)/(B) is same as that of

The displacement x of a particle moving in one dimension under the action of a constant force is related to time t by the equation t=sqrt(x)+3 , where x is in meter and t is in second. Find the displacement of the particle when its velocity is zero.