When a force F acts on a particle of mass m, the acceleration of particle becomes a. now if two forces of magnitude 3F and 4F acts on the particle simultaneously as shown in figure, then the acceleration of the particle is

If a constant force acts on a particle, its acceleration will

According to Newton.s second law of motion, resultant force on a particle is in the direction of acceleration of the particle. Two forcce F_(1) and F_(2) are acting on a particle as shown in the figure. The acceleration of the particle is along X-axis. FInd the value of F_(1) (in newton)

When a force F acs on a body of mass m the acceleration product in the body is a . If htree equal forces F_(1)=F_(2)=F_(3)=F act on the same body as shown in figure the accleration produced is

A person says that he mesured the acceleration of a particle to be nonzero while no force was acting on the particle

When a force F acts on a body of mass m the acceleration product in the body is a . If three equal forces F_(1)=F_(2)=F_(3)=F act on the same body as shown in figure the acceleration produced is

Two forces act on a particle simultaneously as shown in the figure. Find net force in milli newton on the particle. [Dyne is the CGS unit of forces ]

When forces F_1 , F_2 , F_3 , are acting on a particle of mass m such that F_2 and F_3 are mutually perpendicular, then the particle remains stationary. If the force F_1 is now removed then the acceleration of the particle is

The variation of force (F) acting on a particle of mass 800 g with position (x) is as shown in figure. The time period of oscillation of the particles is

A particle of mass m is acted on by two forces of equal magnitude F maintaining their orientation relative to the velocity v as shown in Fig. The momentum of the particle

A force F acts on a particle kept on a rough surface as shown in the figure. The particle is at rest. Find the net force applied by ground on the particle.