If displacement of a particle is zero in a uniform circular motion, then the distance travelled by that particle is not zero, kinetic energy is constant, speed is constant and work done is zero
The distance travelled by a particle cannot be zero when displacement is not zero because unlike distance which is a scalar, displacement is a vector quantity implying that it has both direction and magnitude.
The value of displacement of a particle moving in a circular path for two complete circular motions is zero. This is because the particle ends up back at its starting position after completing each circle, resulting in no net displacement over the two complete circular motions.
The average velocity of a particle when it returns to the starting point is zero. This is because velocity is a vector quantity that includes both magnitude and direction, and returning to the starting point means the displacement is zero, resulting in an average velocity of zero.
No. Displacement is just the final location minus the initial location, regardless of the path.
If displacement is not changing as a function of time, then velocity is zero. Velocity is the rate of change of displacement with respect to time, so if there is no change in displacement, the velocity is zero.
The distance travelled by a particle cannot be zero when displacement is not zero because unlike distance which is a scalar, displacement is a vector quantity implying that it has both direction and magnitude.
The distance travelled by a particle cannot be zero when displacement is not zero because unlike distance which is a scalar, displacement is a vector quantity implying that it has both direction and magnitude.
Negative
distance travel led by a particle in a given interval of time is known as displacement. displacement=distance traveled by time taken.Displacement may be zero. it is path length which a particle travels.distance should not be zero.
The value of displacement of a particle moving in a circular path for two complete circular motions is zero. This is because the particle ends up back at its starting position after completing each circle, resulting in no net displacement over the two complete circular motions.
The average velocity of a particle when it returns to the starting point is zero. This is because velocity is a vector quantity that includes both magnitude and direction, and returning to the starting point means the displacement is zero, resulting in an average velocity of zero.
No. Displacement is just the final location minus the initial location, regardless of the path.
If displacement is not changing as a function of time, then velocity is zero. Velocity is the rate of change of displacement with respect to time, so if there is no change in displacement, the velocity is zero.
Zero Quality
Zero Quality
The maximum displacement of a particle of a wave is called the amplitude. It refers to how far the particle moves from its equilibrium position as the wave passes through it.
Displacement of a straight line is zero...