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How high off of the ground would you have to lift a 1.5 kg ball for it to have 98 J of energy?
To find the height, you can use the formula for gravitational potential energy: PE = mgh, where PE is the energy (98 J), m is the mass (1.5 kg), g is the acceleration due to gravity (9.81 m/s^2), and h is the height. Rearranging the formula to solve for h gives h = PE / (mg). Plugging in the values gives h = 98 J / (1.5 kg * 9.81 m/s^2) ≈ 6.6 meters. So, you would need to lift the 1.5 kg ball to a height of approximately 6.6 meters for it to have 98 J of energy.
What else can I help you with?
Which sports ball had the most potential energy?
If you were talking about gravitational potential energy, assuming each ball was at the same height, the one with the most potential energy would be whichever is heaviest. If each ball weighs the same, whichever one is highest up has more potential energy.
How does the weight of a ball affect how high it bounces?
The weight of a ball can affect how high it bounces due to the conservation of energy principle. A heavier ball will generally bounce lower than a lighter ball because more of the energy will be absorbed by the deformation of the ball when it hits the ground. Lighter balls tend to bounce higher since less energy is lost to deformation.
Why doesn't a bouncy ball bounce as high as from where it was dropped?
Because some of the energy is lost in the bounce the air Resistance and gravity fighting to get the ball back to the ground while it is coming up. However if you throw it down hard enough theoretically it is possible to get the ball to bounce back all the way. this would be because extra energy has been put into the ball enabling it to get back.
How does a rubber ball bounce so high?
A rubber ball bounces high because of its elastic properties. When the ball hits a hard surface, it compresses and stores potential energy. This energy is then released as the ball rebounds, causing it to bounce back up to a certain height.
Why didn't the ball bounce back to it's original height?
When a ball is dropped, some of its energy is lost to other forms like sound and heat upon impact with the ground. This energy loss results in a decrease in the ball's upward velocity, preventing it from returning to its original height during the bounce.
Which sports ball had the most potential energy?
If you were talking about gravitational potential energy, assuming each ball was at the same height, the one with the most potential energy would be whichever is heaviest. If each ball weighs the same, whichever one is highest up has more potential energy.
What would be a situation where an object has a very high kinetic and potential energy?
A cannon ball being shot upward into the air. The kinetic energy is the ball moving at high speeds, while the high potential energy is the height of the ball, as it will use this potential energy to fall back down to earth.
How does the weight of a ball affect how high it bounces?
The weight of a ball can affect how high it bounces due to the conservation of energy principle. A heavier ball will generally bounce lower than a lighter ball because more of the energy will be absorbed by the deformation of the ball when it hits the ground. Lighter balls tend to bounce higher since less energy is lost to deformation.
How does a rubber ball bounce so high?
A rubber ball bounces high because of its elastic properties. When the ball hits a hard surface, it compresses and stores potential energy. This energy is then released as the ball rebounds, causing it to bounce back up to a certain height.
Why doesn't a bouncy ball bounce as high as from where it was dropped?
Because some of the energy is lost in the bounce the air Resistance and gravity fighting to get the ball back to the ground while it is coming up. However if you throw it down hard enough theoretically it is possible to get the ball to bounce back all the way. this would be because extra energy has been put into the ball enabling it to get back.
Why didn't the ball bounce back to it's original height?
When a ball is dropped, some of its energy is lost to other forms like sound and heat upon impact with the ground. This energy loss results in a decrease in the ball's upward velocity, preventing it from returning to its original height during the bounce.
Why doesn't a ball bounce as high as dropped?
When a ball is bounced, some of the initial energy is used to deform the ball upon impact with the ground. This deformation causes some of the energy to be converted into other forms, such as heat and sound, resulting in a lower bounce height compared to the height it was dropped from.
What affects a ball's bounce?
A ball's bounce is influenced by factors such as the material it is made of, the amount of pressure or air inside the ball, the surface it lands on, and the angle at which it hits the ground. These factors determine the elasticity and energy absorption of the ball, affecting how high it bounces.
The drop of an electron from a high energy level to the ground state in a hydrogen atom would be most likely associated with?
high frequency radiation
Which would bounce higher a golf ball a rubber ball or ping pong ball?
A rubber ball would generally bounce higher than a golf ball or a ping pong ball due to its elasticity and ability to store and release energy upon impact. Ping pong balls, being lightweight and hollow, can also bounce quite high but may not have the same level of bounce as a rubber ball. Golf balls are designed for low bounce as they are meant to stay on the ground when hit.
What are the conversions between potential and kinetic energy that occurs when you shoot a basketball at a basket?
Seriously -.-' First of all When You throw The Basketball it is going up^ Which is Kinetic energy when is comes down and STOPS it is Potential energy. Oh And this question is in the 6th grade science textbook! The orange textbook....so yeah. BYe
When does an object have gravitational potential energy?
Well gravitational potential energy is potential energy that depends on the height of an object so an object would have gravitational potential energy when ever it's of the ground or at a high height (it doesn't have to be very high) for example if you lift up a ball it has the potential to fall or if your climbing a mountain you have gravitational potential energy.
