# When a particle moving on the x-axis experiences a force?

## When a particle moving on the x-axis experiences a force?

A particle moving on the x-axis experiences a force given by Fx=qx2, where q is a constant.

## What is the velocity of a particle moving along the x-axis?

The velocity (v) of a particle of mass m moving along x-axis is given by v=α√x, where α is a constant.

## What is the deposition of a particle moving along the x-axis?

The position of a particle moving along the x− axis is expressed as x=at3+bt2+ct+d. The initial acceleration of the particle is.

## When a particle is moving along the x-axis has its position described?

A particle moving along the x-axis has its position described by the function x = (2t2 – t + 1) m, where t is in s.

## Can a particle move only in the x-axis?

When a particle of mass m moves on the x-axis in a potential of the form V(x)=kx2. It performs simple harmonic motion. The corresponding time period is proportional to √mk, as can be seen easily using dimensional analysis.

## When a particle is moving along the x-axis its position X varies with time?

The position x of particle moving along x-axis varieswith time t as x= Asin (ω t) where A and arepositive constants.

## Is velocity the X or Y axis?

The vertical axis represents the velocity of the object. People get so used to finding velocity by determining the slope—as would be done with a position graph—they forget that for velocity graphs the value of the vertical axis is giving the velocity.

## What is initial velocity along x-axis?

The initial velocity of a particle moving along x-axis is u(at t=0 and x=0) and its acceleration a is given by a=kx. Which of the following equation is correct between its ve locity(v) and (x)? Q. The initial velocity of a particle moving along x−axis is u (at t=0 and x=0) and its acceleration a is given by a=kx.

## How velocity of a particle moving along x-axis varies with time?

Velocity (v) of a particle in motion along x axis varies with time (t) as v = (16 – 4t) m/s. The maximum displacement of the particle along positive x-axis will be mation along ate ventes van time in as v= (1 – an mes.

## What is a particle moves along x-axis such that its acceleration is given by?

Step by step video, text & image solution for A particle moves along X axis such that its acceleration is given by a = -beta(x -2),where beta is a positive constant and x is the position co-ordinate.

## How does a particle move along the x-axis according to the equation?

A particle moves on the X-axis is according to the equation x=A+B sinωt. The motion is simple harmonic with amplitude: Q. A particle moves on the X-axis according to the equation x=A+Bsinω t.

## What is the position of an object moving along the x-axis is given by X A?

The position of an object moving along x−axis is given by x=a+bt2, where a=8.5 m and b=2.5 ms–2 and t is measured in seconds.

## What is the force acting on a particle positioned at X?

The force acting on a particle positioned at x is F=m+nx.

## When a particle moves in the xy plane experiences a velocity dependent force?

A particle moving in the xy plane experiences a velocity dependent force →F=k(vy^i+vx^j), where vx and vy are x and y components of its velocity →v.

## What is the force acting on the particle moving along the x-axis executes simple harmonic motion?

Thus force acting on S.H.M on x-axis will be F=−Akx where A and k are positive constants.

## When a particle moves in the X and Y plane under the influence of a force?

A particle moves in the x−y plane under the influence of a force such that its linear momentum is →p(t)=A[cos(kt)^i−sin(kt)^j], where A and k are constants. The angle between the force and the momentum is : Q.