In particular, you have not taken into account the rotational kinetic energy.
Nuha99 said:Thanks for your reply.
A falling object accelerates with acceleration of gravity, g. Here the given acceleration, as I understand, is the acceleration of the center of mass (linear acceleration). Even though the ball is rolling, C.M is moving in a straight line along the incline so that we can use the equation of kinematics.
Conservation of energy gives me an expression for the final velocity as a function of initial height of the ball above the ground, and will not allow me to find the time of travel.
To calculate the time for a ball rolling down an inclined plane, you will need to know the initial velocity of the ball, the angle of the incline, and the acceleration due to gravity. You can use the formula t = √(2h/gsinθ), where t is the time, h is the vertical distance traveled, g is the acceleration due to gravity (9.8 m/s²), and θ is the angle of the incline.
The acceleration due to gravity is a constant value that represents the rate at which objects accelerate towards Earth. On Earth, this value is approximately 9.8 m/s². This means that for every second an object falls, its speed will increase by 9.8 m/s.
Yes, the initial velocity of the ball will affect the time it takes to roll down the inclined plane. The faster the initial velocity, the shorter the time it will take for the ball to reach the bottom of the incline. This is because the initial velocity is factored into the formula for calculating time.
No, it is not necessary to take air resistance into account when calculating the time for a ball rolling down an inclined plane. This is because air resistance is typically negligible for objects rolling on an incline at low speeds.
Yes, the angle of the incline can affect the time it takes for a ball to roll down. The steeper the incline, the shorter the time it will take for the ball to reach the bottom. This is because a steeper incline will result in a shorter vertical distance for the ball to travel, which will decrease the time calculated using the formula.