A particle is rotating in a cirlce of radius 1 m with constant speed 4 m/s. In time 1s, match the following (in `SI` unit)
`{:(,"Table-1",,"Table-2"),("(A)","Displacement","(P)","8 sin 2"),("(B)","Distance","(Q)",4),("(C)","Average velocity","(R)","2 sin 2"),("(D)","Average acceleration","(S)","4 sin 2"):}`

A particle is rotating in a circle of radius 1m with constant speed 4 m//s . In time 1s, match the following (in SI units) {:(,"Column I",,,"Column II"),((A),"Displacement",,(p),8 sin 2),((B),"Distance",,(q),4),((C),"Average velocity",,(r),2sin 2),((D),"Average acceleration",,(s),4 sin 2):}

A particle is revolving in a circular path of radius 2 m with constant angular speed 4 rad/s. The angular acceleration of particle is

A particle moves in a circle of radius R = 21/22 m with constant speed 1 m//s. Find, (a) magnitude of average velocity and (b) magnitude of average acceleration in 2 s.

A particle is moving along a circle of radius 1 m at a speed of 2 m/s .If the speed is incresed at the rate of 3 m//s^(2) then the resultant acceleration is

Match the following. |{:(,"Table-1",,"Table-2"),((A),"Coefficient of viscosity",(P),[M^(2)L^(-1)T^(-2)]),((B),"Surface tension",(Q),[ML^(0)T^(-2)]),((C),"Modulus of elasticity",(R),[ML^(-1) T^(-2)]),((D),"Energy per unit volume",(S),"None"),(,"of a fiuid",,):}|

A particle is moving on a circular path of radius 1 m with 2 m/s. If speed starts increasing at a rate of 2m//s^(2) , then acceleration of particle is

Match the following {:(,"Table - 1",,"Table - 2",),((A),sigma^(2)//epsi_(0),(P),C^(2)//J - m,),((B),epsi_(0),(Q),"Farad",),((C),("ampere - second")/("Volt"),(R),J//m^(3),),((D),(V)/(E),(S),"metre",):}

A particle is projected with velocity 20sqrt(2)m//s at 45^(@) with horizontal. After 1s (g=10m//s^(2)) match the following table

A paricle is describing the circular path of radius 20 m in every 2 s. The average angular speed of the particle during 4 s is

A particle is moving with speed v= 2t^(2) on the circumference of a circle of radius R. Match the quantities given in Table-1 with corresponding results in Table-2 {:(,"Table-1",,"Table-2"),("(A)","Magnitude to tangential acceleration of particle","(P)","decreases with time"),("(B)","Magnitude of centripetal acceleration of particle","(Q)","increases with time"),("(C)","Magnitude of angular speed of particle with respect to centre of circle","(R)","remains constant"),("(D)","Angle between the total acceleration and centripetal acceleration of partilce","(S)","depends upon the value of radius R"):}