The height of the particle at any time t can be represented by the equation h(t) = H - (1/2)gt^2, where H is the maximum height reached, g is the acceleration due to gravity, and t is the time. At time T, the height of the particle is H, and the height decreases as time increases beyond T due to gravity acting on the particle.
When a cricket ball is projected vertically upward, the acceleration acting on the ball is gravitational acceleration directed downward. This causes the ball to slow down until it reaches the highest point of its trajectory, then it accelerates back downward due to gravity.
The imaginary line halfway between the maximum and minimum points the wave reaches vertically is known as the equilibrium position or the rest position of the wave. It represents the average position of the wave when it is not experiencing any displacement.
At the extreme end of vibration, the particle velocity is at its maximum value. This occurs when the particle reaches the peak amplitude and changes direction. It then slows down to a stop before moving in the opposite direction.
An object projected vertically upward in free fall essentially means it is given an initial velocity upward and then left to fall freely under the influence of gravity. As it moves upwards, its velocity decreases until it reaches the highest point and then starts to fall back due to gravity. During this motion, the only force acting on the object is gravity, causing it to accelerate downward at a rate of 9.8 m/s^2.
The instantaneous acceleration of the particle is equal to 0 when the velocity of the particle is at a maximum or minimum. This occurs at the points on the graph where the slope of the velocity-time graph is horizontal or the velocity reaches a peak or trough.
When a cricket ball is projected vertically upward, the acceleration acting on the ball is gravitational acceleration directed downward. This causes the ball to slow down until it reaches the highest point of its trajectory, then it accelerates back downward due to gravity.
When a pendulum reaches its maximum elongation the velocity is zero and the acceleration is maximum
The imaginary line halfway between the maximum and minimum points the wave reaches vertically is known as the equilibrium position or the rest position of the wave. It represents the average position of the wave when it is not experiencing any displacement.
The imaginary line halfway between the maximum and minimum points that a wave reaches vertically is called the equilibrium position or the rest position. It represents the average position of the wave when it is not oscillating.
if the bal is thrown by making 45 degree angles. with the ground..it will travel maximum distance...
At the extreme end of vibration, the particle velocity is at its maximum value. This occurs when the particle reaches the peak amplitude and changes direction. It then slows down to a stop before moving in the opposite direction.
An object projected vertically upward in free fall essentially means it is given an initial velocity upward and then left to fall freely under the influence of gravity. As it moves upwards, its velocity decreases until it reaches the highest point and then starts to fall back due to gravity. During this motion, the only force acting on the object is gravity, causing it to accelerate downward at a rate of 9.8 m/s^2.
The instantaneous acceleration of the particle is equal to 0 when the velocity of the particle is at a maximum or minimum. This occurs at the points on the graph where the slope of the velocity-time graph is horizontal or the velocity reaches a peak or trough.
The maximum height hmax that a ball reaches when thrown into the air is the highest point it reaches before falling back down.
The speed decreases when an object is thrown vertically up because of the force of gravity acting against the object's upward motion. As the object goes higher, the force of gravity slows it down until the object reaches its maximum height, where its speed momentarily becomes zero before accelerating back downward.
The graph of the motion of a body falling vertically that reaches a terminal speed would show an initial acceleration until the body reaches its terminal velocity. At this point, the graph would level off, showing constant velocity as the body falls continuously.
The maximum value a wave reaches relative to its resting position is called the amplitude. It represents the maximum displacement of the wave from its equilibrium position.