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The answer will depend on the shape of the slope, and the trajectory that the ball follows.
If you roll a ball up a hill it undergoes negative upward and positive downward acceleration.
If the increase in speed is uniform, this means that the slope of the function of speed over time is constant. This means that acceleration is constant.
The ball has the potential to move down the slope when released.
The speed of the ball can be determined using the law of conservation of energy. The initial potential energy of the ball is converted into kinetic energy as it rolls down the inclined plane. Assuming no energy losses, the speed of the ball at the bottom of the plane can be calculated using the equation v = √(2gh), where v is the speed, g is the acceleration due to gravity (9.8 m/s^2), and h is the height (50 cm = 0.5 m). Plugging in the values, the speed of the ball when it reaches the bottom of the plane is approximately 3.13 m/s.
The answer will depend on the shape of the slope, and the trajectory that the ball follows.
If you roll a ball up a hill it undergoes negative upward and positive downward acceleration.
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To find the slope or fall of a ball or other object that is at an angle of 2 degrees for over 3.9 minutes, you will need several factors. You will need the distance or length of the slope and the speed of the ball at its peak movement.
Yes because if you hit the top of the ball it won't go very fast, but if you hit the bottom or the middle if the ball it will go faster.
Both of them
If the increase in speed is uniform, this means that the slope of the function of speed over time is constant. This means that acceleration is constant.
To beat civiballs level 10 in Egypt follow these steps: 1. Drop the GIANT ball to the left on the bottom. 2 .Next drop the green ball don the slope into the vase. 3.Then you drop the shorter side 2 the red ball NOT THE LONG SIDE. 4. After that, drop the longer side (the side its connected 2) right before it hits the pale slope while its still swinging high then it falls into its vase (ps, if you miss restart and try again.) 5. Drop the other HUGE ball to the bottom right 6. This step is hard to explain so read carefully...., hit the left side of the only gray ball left and when it makes it to the corner of the pale slope and hit the right side, if the slope goes toward the yellow vase you did it right now quickly hit the yellow ball before the slope starts moving if you don't hit it in time the ball will miss its vase and you will have to start over.
It has a negative (downward) slope.
The acceleration of a tennis ball rolling down an incline depends with two factors. The force that is applied to the tennis ball and the mass of the tennis ball will determine its acceleration.
If you kick the the ball at the top it's lower wind higher pressure and if you kick it at the bottom you get highter wind speed and lower pressure
The ball has the potential to move down the slope when released.