Consider a simple pendulam of length 1 m...

Consider a simple pendulam of length 1 m. Its bob performs a circular motion is horizontal plane with its string making an angle `60^@` with the vertical. The centripetal accleration experienced by the bob is

17.3 `m/s^2`

5.8 `m/s^2`

10 `m/s^2`

5`m/s^2`

Text Solution

Verified by Experts

Topper's Solved these Questions

MEASUREMENTS
TARGET PUBLICATION|Exercise EVALUATION TEST|17 Videos
OPTICS
TARGET PUBLICATION|Exercise EXERCISE|447 Videos

Similar Questions

Explore conceptually related problems

-A simple pendulum of is length 1 m, the bob , performs circular motion in horizontal plane. If itsstring making an angle 60^@ with the vertical, then the period of rotation of the bob will be

A simple pendulum of length 1 m the bob performs circular motion in horizontal plane if its string making an angle 60 ^(@) with the verticle , then the period of rotation of the bob will be (g=10 m//s^(2)

A simple pendulum of length I and mass (bob) m is suspended vertically. The string makes an angle theta with the vertical. The restoring force acting on the pendulum is

A body of mass m hangs at one end of a string of length l , the other end of which is fixed. It is given a horizontal velocity so that the string would just reach where it makes an angle of 60^(@) with the vertical. The tension in the string at mean position is

A particle of mass 10^-6 kg performs uniform circular motion. Its period is 10 s and the radius of the circle is 2 m. Find (i) the speed of the particle (ii) the centripetal acceleration of the particle (iii) the centripetal force on the particle.

A bob is suspended from an ideal string of length l. Now it is pulled to a side till the string makes an angle 60^@ to the vertical and whirled along a horizontal circle. Then its period of revolution is

A stone is projected with velocity of 100 m/s at an angle of 60^@ with the horizontal, its maximum height is

A stone of mass 1 kg is whirled in horizontal circle attached at the end of a 1 m long string. If the string makes an angle of 30^@ with vertical, calculate the centripetal force acting on the stone. (g = 9.8 m/s^2)

A body of mass 4 kg is moved in a vertical circle with sufficient speed. Its tangential acceleration, when the string makes an angle of 30^@ with the vertical downward is

TARGET PUBLICATION-Motion in a plane-Exercise

When the bob of a conical pendulam is moving in a horizontal circle at...
Text Solution
|
The period of a conical pendulam is
Text Solution
|
Consider a simple pendulam of length 1 m. Its bob performs a circular ...
Text Solution
|
A particle of mass 1 kg is revolved in a horizontal circle of radius 1...
Text Solution
|
Which of the following changes, when a particle is moving with uniform...
Text Solution
|
In an inertial frame of reference, a body performing uniform circular ...
Text Solution
|
The three initial and final position of a man on the x-axis are given ...
Text Solution
|
Assertion: The equation of motion can be applied only if acceleration ...
Text Solution
|
Body can NOT have
Text Solution
|
A particle oscillates along a straight line 1m long, if it completes o...
Text Solution
|
The ratio of the numerical values of the average velocity and average ...
Text Solution
|
The speed v of particle moving along a straight line, when it is at a ...
Text Solution
|
A body starts from rest with uniform acceleration. If its velocity aft...
Text Solution
|
A particle starts from rest, accelerates at 2 ms^-2 for 10 s and then ...
Text Solution
|
A particle travels 10 m in first 5 s and 10 m next 3 s. Assuming const...
Text Solution
|
A body A moves with a uniform acceleration a and zero initial velocity...
Text Solution
|
"The velocity of a particle is v=v0+(gt)+ft^2. If its position x=0 at ...
Text Solution
|
The acceleration a of a particle starting from rest varies with time, ...
Text Solution
|
Acceleration of a body when displacement equation is 3s = 9t+5t^2 is
Text Solution
|
The relation between time and distance is t=alphax^2 +beta^x , where a...
Text Solution
|