`F_(0) - F_(1)` particles participate in the synthesis of . . . .

A solid sphere of uniform density and radius R applies a gravitational force of attraction equal to F_(1) on a particle placed at P , distance 2R from the centre O of the sphere. A spherical cavity of radius R//2 is now made in the sphere as shown in figure. The particle with cavity now applies a gravitational force F_(2) on same particle placed at P . The radio F_(2)//F_(1) will be

When forces F_(1), F_(2) and F_(3) are acting on a particle of mass m such that F_(2) and F_(3) are m utually perpendicular, then the particle remains stationary. If the force F x is now removed, then the acceleration of the particle is .........

If the resultant of three forces F_(1)=phati+3hatj-hatk,F_(2)=6hati-hatk and F_(3)=-5hati+hatj+2hatk acting on a particle has a magnitude equal to 5 units, then the value of p is

Given below is a diagram showing ATP synthesis during aerobic respiration, replace the symbols A, B, C, D and E by appropriate germs given below , F_(1) , particle, formation of Pi, 2H^(+) , inner mitochondrial membrane, ATP, Fo particle, ADP.

Four forces act on a particle as shown in the figure such that net force is zero. Then consider following statement :- (A) Magnitude of vec(f_(1)) is 10N (B) Magnitude of vec(f_(1)) is 20N (C) Magnitude of vec(f_(2)) is 10N (D) Magnitude of vec(f_(2)) is 20N

Let F_(1) be the set of parallelograms, F_(2) the set of rectangles, F_(3) the set of rhombuses, F_(4) the set of squares and F_(5) the set of trapeziums in a plane. Then, F_(1) may be equal to

A particle moving along x-axis has acceleration f , at time t , given by f = f_0 (1 - (t)/(T)) , where f_0 and T are constant. The particle at t = 0 has zero velocity. In the time interval between t = 0 and the instant when f = 0 , the particle's velocity (v_x) is :

Two forces f_(1)=4N and f_(2)=3N are acting on a particle along positve X- axis and negative Y- axis respectively. The resultant force on the particle will be -

Given f' (1) = 1 and d/(dx)f(2x)=f'(x) AA x > 0 . If f' (x) is differentiable then there exists a number c in (2,4) such that f'' (c) equals