The distance x of a particle moving in o...

The distance x of a particle moving in one dimension, under the action of constant force is related to time t by equation. t = `sqrt x + 3` where x in metre and t in second. Find the displacement of the particle when its velicity is zero.

Topper's Solved these Questions

KINEMATICS - 1
BINA LIBRARY|Exercise EXERCISE|67 Videos
KINEMATICS-II
BINA LIBRARY|Exercise EXERCISE|55 Videos

Similar Questions

Explore conceptually related problems

The motion of a particle along x-axis is given by equation x = 9+ 5t^2 , where x is the distance in cm and t is time in second. Find the displacement after 3 seconds.

The motion of a particle along x-axis is given by equation x = 9+ 5t^2 , where x is the distance in cm and t is time in second. Find instantaneous velocity after 3 seconds

The motion of a particle along x-axis is given by equation x = 9+ 5t^2 , where x is the distance in cm and t is time in second. Find average velocity during the interval from 3 to 5 seconds

The displacement ( in meter ) of a particle moving along x-axis is given by x = 18t+ 5t^2 . Calculate instantaneous velocity at t = 2s

A particle moves along a straight line according to x = Pt^2 + 2qt + r where x is the distance travelled in time t and p, q and r are constants. Find an expression for the acceleration of the particle.

The displacement ( in meter ) of a particle moving along x-axis is given by x =18t+ 5t^2 . Calculate average velocity between t = 2s and t = 3s .

The displacement ( in meter ) of a particle moving along x-axis is given by x = 18t+ 5t^2 . Calculate instantaneous acceleration.

A simple harmonic motion is represented by x=10sin (20t+0.5) where x is in metre and t is in second. Find its amplitude, angular frequency, frequency and time period.

A particle starts moving from the position of rest under a constant acc. It travels a distance x in the first 10 sec a distance y iri the next 10 see. , then

The displacement equation of a particle moving along a straight line with uniform acceleration is x = v_0t + 1/2at^2 . Find the distance covered by the particle in the last second of its motion.

BINA LIBRARY-KINEMATICS - 1-EXERCISE

The distance x of a particle moving in one dimension, under the action...
Text Solution
|
Distinguish between distance and displacement
Text Solution
|
Distinguish between speed and velocity.
Text Solution
|
What is meant by the statement 'motion and rest are relative' ?
Text Solution
|
Define the terms instantaneous velocity and instantaneous acceleration...
Text Solution
|
Define relative velocity. When is its value zero ?
Text Solution
|
Can the speed of a body negative ?
Text Solution
|
Can the velocity of a body negative or zero ?
Text Solution
|
What does the slope of velocity-time graph indicate ?
Text Solution
|
What does the area under velocity - time graph indicate?
Text Solution
|
Can a particle has zero velocity while its acceleration is uniform ?
Text Solution
|
What does the speedometer of a car indicate?
Text Solution
|
Distinguish between average velocity and instantaneous velocity.
Text Solution
|
What is the uniform motion ? How would you represent it graphically?
Text Solution
|
What does the slope of velocity-time graph indicate ?
Text Solution
|
Distinguish between average velocity and average speed. Is it possib...
Text Solution
|
A particle moves along a straight line according to x = Pt^2 + 2qt + ...
Text Solution
|
The displacement equation of a particle moving along a straight line w...
Text Solution
|
Derive - v = v0 + at
Text Solution
|
Derive - x = v0t + 1/2at^2
Text Solution
|
Derive - v^2 = v0^2 +2ax
Text Solution
|