The displacement of a particle is given ...

The displacement of a particle is given by `y = a + bt + ct^2 - dt^4`. The initial velocity and acceleration are respectively.

A

`b, -4d`

B

`-b,2c`

C

`b,2c`

D

`2c,-4d`

Text Solution

Verified by Experts

The correct Answer is:

C

Topper's Solved these Questions

MOTION IN ONE DIMENSION
ERRORLESS |Exercise Relative Motion|13 Videos
MOTION IN ONE DIMENSION
ERRORLESS |Exercise Motion Under Gravity|81 Videos
MOTION IN ONE DIMENSION
ERRORLESS |Exercise Uniform Motion|24 Videos
GRAVITATION
ERRORLESS |Exercise SET|27 Videos
MOTION IN TWO DIMENSION
ERRORLESS |Exercise Exercise|319 Videos

Similar Questions

Explore conceptually related problems

The displacement of a particle si given by y = a+bt +ct^(2) +dt^(4) .find the acceleration of a particle.

The displacement s of a particle at a time t is given bys =t^(3)-4t^(2)-5t. Find its velocity and acceleration at t=2 .

The displacement of a particle moving along x-axis is given by : x = a + bt + ct^2 The acceleration of the particle is.

The displacement of a moving particle is given by, x=at^3 + bt^2 +ct + d . The acceleration of particle at t=3 s would be

If reation between distance and time is s =a + bt + ct ^(2) find initial velocity and acceleratin

The displacement of a particle moving along a straight line is given by s=3t^(3)+2t^(2)-10t. find initial velocity and acceleration of particle.

If the displacement of a moving particle is given by s=5 + 20 t-2t^(2), then acceleration when velocity is zero, is

The acceleration of a particle is given by a = 3t and at t = 0, v = 0, x = 0. The velocity and displacement at t = 2 sec will be-

The displacement of a particle is given by x=At^(3)+Bt^(2)+Ct+D . The dimension of L in (AD)/(BC) will be

The displacement of a particle moving in a straight line is given by s=t^(3)-6t^(2)+3t+4 meters.The velocity when acceleration is zero is "

ERRORLESS -MOTION IN ONE DIMENSION-Non-uniform Motion

A body starts from rest from the origin with an acceleration of 6m//s^...
Text Solution
|
A car moving with a velocity of 10m/s can be stopped by the applicatio...
Text Solution
|
The displacement of a particle is given by y = a + bt + ct^2 - dt^4. T...
Text Solution
|
A car moving with a speed of 40 km//h can be stopped by applying the b...
Text Solution
|
An elevator car, whose floor to ceiling distance is equal to 2.7m star...
Text Solution
|
The displacement is given by x = 2t^(2) +t +5, the acceleration at t =...
Text Solution
|
Two trains travelling on the same track are approaching each other wit...
Text Solution
|
A body moves from rest with a constant acceleration of 5m//s^(2). Its ...
Text Solution
|
A boggy of uniformly moving train is suddenly detached from train and ...
Text Solution
|
A body starts from rest, what is the ratio of the distance travelled b...
Text Solution
|
The acceleration a in ms^-2 of a particle is given by a=3t^2+2t+2, whe...
Text Solution
|
A particle moves along a staight line such that its displacement at an...
Text Solution
|
For a moving body at any instant of time
Text Solution
|
The x and y coordinates of a particle at any time t are given by x=7t+...
Text Solution
|
The engine of a car produces acceleration 4m//s^(2) in the car. If thi...
Text Solution
|
If a body starts from rest and travels 120 cm in the 6 second then wha...
Text Solution
|
If a car at rest, accelerates uniformly to a speed of 144 km//h in 20s...
Text Solution
|
The position x of a particle varies with time t as x=at^(2)-bt^(3). Th...
Text Solution
|
A truck and a car are moving with equal velocity. On applying the brak...
Text Solution
|
(a) If a train traveling at 72 km//h is to be brought to rest in a dis...
Text Solution
|