In a nutshell, calculus is the mathematical study of change. Algebra covers mainly linear applications like velocity = distance divided by time. Calculus is used to find the instantaneous velocity of a ball thrown 6 feet in the air as it is falling, paused in time at 4 feet up (the velocity is getting faster as the ball comes down, so you need calculus equations and techniques to figure this out).
No. Throwing a ball is a quadratic function.
34.5 feet
i havent found yet will lwt u know later ..
A reverse mortgage calculator is only as accurate as the information that is imputed by the user. Consider it as an educated guess or a ball park estimate.
a cricket ball
This is an example of inertia. The rolling ball has more mass, so it has greater inertia than the ping pong ball. This means it requires more force to stop the rolling ball compared to the ping pong ball at the same velocity.
The velocity of a ball rolling down a hill will increase due to the acceleration caused by the pull of gravity. As the ball gains speed, its velocity will continue to increase until it reaches the bottom of the hill.
If you push the ball to the right velocity in the same direction, it will continue moving in a straight line with the new velocity. If there are no other forces acting on it, it will maintain constant velocity due to inertia.
The main force that causes the soccer ball to stop rolling is friction between the ball and the grass surface it is rolling on. As the ball moves, the grass exerts a force in the opposite direction of the ball's motion, gradually slowing it down until it comes to a stop.
accelerate
If you push a ball rolling in a straight line to the right, its velocity will change in the direction you pushed it, affecting its speed and direction of motion. The velocity will have a component in the direction you pushed it, as well as any remaining component from its original motion.
Not necessarily. If it's rolling in a straight line on a smooth and level floor, then the acceleration is as good as zero. But if the ball is rolling up a hill, or down a hill, or around the groove in a roulette wheel, or through grass and slowing down, then there's substantial acceleration.
Yes, a rolling ball has kinetic energy due to its motion. The amount of kinetic energy it has depends on its mass and velocity.
This is an example of momentum, which is a product of the object's mass and its velocity. It is also harder to start a bowling ball rolling than a ping-pong ball due to inertia, which is related only to the object's mass.
It is an example of momentum (sometimes called "inertia"). Velocity x mass. The bowling ball is much, much heavier. With both rolling at the same speed, the bowling ball is harder to stop because it has much more mass.
accelerate