A toy cart is tied to the end of an unstretched string of length / when revolved the toy cart moves in horizontal circle with radius 2/ and time period T if it is speeded unitl it moves in horizontal circle of radius 3/ with period `T_(1)` relation between T and `T_(1)` is (Hooke 's law is obeyed)
A
`T_(1)=(2)sqrt(3)T`
B
`T_(1)=sqrt(3)/(2)T`
C
`T_(1)=sqrt(2)/(3)T`
D
`T_(1)=sqrt(3)/(2)T`
Text Solution
Verified by Experts
The correct Answer is:
d
using `y=(f)/(A Delta i).I` or `Y=(f)/(A).(I)/((2I-I)) rarr F= YA` the force f will provide required centripetal force for the horizontal circular motion `F=(mv^(2))/(r )` and time period `T=(2pir)/(V) rarr T^(2)=(4pi^(2)r^(2))/(V^(2))` `T^(2)=(4pi^(2)m(2I))/(F)` time period `T_(1)=(4pi^(2)mr^(2)r)/(F_(1)r)=(4pi^(2)m(3L))/(2yA)` `T_(1)=sqrt(3)/(2) T`
Topper's Solved these Questions
MHTCET 2015
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise Chemistry|1 Videos
MHTCET 2014
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise Physics|45 Videos
MHTCET 2016
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise Physics|50 Videos
Similar Questions
Explore conceptually related problems
A toy cart is tied to the end of an unstrectched string of length 'l' when revolved , the toy cart moves in horizontal circle with radius '2l' and time period T. IF it is speeded until it moves in horizontal circle of radius '3l' with period T_(1) , relation between T and T_(1) is (Hooke 's law is obeyed )
Toy cart tied to the end of an unstretched string of length a, when revolved moves in a horizontal circle of radius 2a with a time period T. Now the toy cart is speeded up until it moves in a horizontal circle of radius 3a with a period T. If Hooke's law (F=kx) holds, then
An object of mass M is tied to a string of l and revolve in a horizontal circle .If length is reduced by l//2 , then period is
A particle of mass m is moving along a circle of radius r with a time period T . Its angular momentum is
A particle is moving in a circle of radius 1 m with speed varying with time as v=(2t)m//s . In first 2 s
A particle is moving in a circle of radius 1 m with speed varying with time as v = (2t) m/s. In first 2 sec:
A paricle of mass m is tied to a light string of length L and moving in a horizontal circle of radius r with speed v as shown. The forces acting on the particle are
A particle with the constant speed in a circle of radius r and time period T.The centripetal acceleration of a particle is
A particle tied to a string of negligible weight and length l is swung in a horizontal circular path with constant angular velocity having time period T. If the string length is shortened by l//2 while the particle is in motion , the time period is .
A horizontally placed spring mass system has time period T. The same system is now placed on a car moving with acceleration a in horizontal direction. Then,
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS-MHTCET 2015-Chemistry
