Questions

Can we apply the equation of motion if acceleration is?

Can we apply the equation of motion if acceleration is?

The equation of motion can be applied only if acceleration is along the direction of velocity and is constant.

Can the equations of kinematics be used when the acceleration varies with time if not what form would these equations take?

No, the equations of are not applicable when the acceleration varies with time.

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Can the equation of motion be used when acceleration is zero?

Equation of motion are applicable when the acceleration is constant. Thus, equation of motion is zero as zero is also a constant.

Can the equations in the table below be used in a situation where the acceleration varies with time?

Speed and direction of an object at a particular instant in time. Can the equations of kinematics be used in a situation in which acceleration varies with time? No, they can only be used when acceleration is constant.

Can we apply the equation of motion?

The relations between these quantities are known as the equations of motion. Hence, these equations are used to derive the components like displacement(s), velocity (initial and final), time(t) and acceleration(a). Therefore they can only be applied when acceleration is constant and motion is a straight line.

Where we can apply equation of motion?

Three Equations of Motion These equations contain quantities displacement(s), velocity (initial and final), time(t) and acceleration(a) that governs the motion of a particle. These equations can only be applied when acceleration of a body is constant and motion is a straight line.

Can the equations of kinematics EQS 2.9 2.13 be used in a situation where the acceleration varies in time can they be used when the acceleration is zero?

The equations can be utilized for any motion that can be described as being either a constant velocity motion (an acceleration of 0 m/s/s) or a constant acceleration motion. They can never be used over any time period during which the acceleration is changing.

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Can the velocity of an object be in the opposite direction of the acceleration?

Answer: yes ,in case of retardation,the direction of velocity and the acceleration are opposite to each other. this is possible because both velocity and the acceleration are vector quantities.

In which of the following situations equations of motion are not applicable?

The motion of a body or heavenly bodies in space are determined by the concept of kinematics. Kinematics is depends upon geometry or pictures,in mechanics kinematics role is very significant and kinematic equation can not be used when the acceleration vary from moment to moment.

Can we apply the equations of motion with uniform acceleration on a body that moves with zero acceleration?

The equations of motion are applicable only when the body moves with uniform acceleration.

Where is V U at used?

v=u+at is used in case of variable acceleration. Comment – Brainly.in.

When can the three equations of acceleration be applied?

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Therefore they can only be applied when acceleration is constant and motion is a straight line. The three equations are, v = u + at. v² = u² + 2as. s = ut + ½at². where, s = displacement; u = initial velocity; v = final velocity; a = acceleration; t = time of motion.

When can the three equations of motion be applied?

Therefore they can only be applied when acceleration is constant and motion is a straight line. The three equations are, where, s = displacement; u = initial velocity; v = final velocity; a = acceleration; t = time of motion.

What is the relation between acceleration and motion?

The relations between these quantities are known as the equations of motion. In case of uniform acceleration, there are three equations of motion which are also known as the laws of constant acceleration.

What is the equation for acceleration with constant velocity?

The equation – v = v0 + v 2 reflects the fact that when acceleration is constant, – v is just the simple average of the initial and final velocities. Figure 3.18 illustrates this concept graphically. In part (a) of the figure, acceleration is constant, with velocity increasing at a constant rate.