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The relationship between kinetic energy and speed is directly proportional, meaning that as speed increases, kinetic energy also increases. This relationship is described by the kinetic energy formula, which states that kinetic energy is directly proportional to the square of the speed of an object.
What else can I help you with?
The factor that has the greatest effect on kinetic energy?
Speed has the greatest influence on kinetic energy. However, we must not ignore the principle of conservation of energy. For example, when a ball is thrown from a height, the energy change is from gravitational potential energy to kinetic energy. Thus, height will determine kinetic energy. If the ball is thrown from rest, the initial speed will give rise to kinetic energy.
What do you notice about the relationship between potential energy and height?
Potential energy increases with height - the higher an object is lifted, the greater its potential energy. This relationship is a result of the gravitational force acting on the object, with potential energy being stored as a result of the object's position relative to the Earth's surface.
How the kinetic energy of an object changes when the speed of the object doubles?
Look at the formula for the kinetic energy of an object: KE = 1/2 M V2Did you notice that " V2 " ? That means the KE is proportional to the squareof the object's velocity.So if the object's speed doubles, its KE increases by (2)2 = a factor of 4.
What is energy stored in an object?
Potential energy is work done against a conservative force, such as gravity. You might say it is stored in the force field or force fields. It is often convenient to think of an object (a raised stone, for example) as "having" a certain amount of potential energy, but it is probably more accurate do consider the energy as being in the RELATIONSHIP between the two objects. If the rock and planet Earth are farther apart, there is more potential energy; if they are nearer, there is less potential energy. Just by observing the rock or Earth, you won't notice any energy (like heat, or movement); you have to observe the RELATIONSHIP between the two to conclude that there is potential energy.
What will the kinetic energy be of an arrow after it is shot if it has a mass of 10 g and has a potential energy of 50 joules before it is shot?
If all of the potential energy is transferred to the arrow's motion as kinetic energy,then when the shot is complete and before any effect of air resistance has kicked in,its kinetic energy is 50 joules.KE = (mass) x (speed)250 = (.01) x V2V = sqrt(5000) = 70.711 meters per second, as it leaves the bow.Oops! Please excuse us. We thought you were going for the arrow's speed as it leftthe bow. Now we notice that you only wanted its kinetic energy. That's 50 joules,and it doesn't make any difference what its mass is. That was a 10-gram red herring.
Is aiming a rubber band and then releasing it a Conversion of Potential energy to kinetic energy?
This is a conversion of Potential energy to Kinetic energy. When you stretch the rubberband, you exert energy to do so. That energy is stored in the rubberband.(Notice it will resitst your stretching of it). When you release the rubberband, all of the energy stored within it will be converted to kinetic energy, meaning the energy of motion. This will launch the rubberband forward. Hope this helps!
The factor that has the greatest effect on kinetic energy?
Speed has the greatest influence on kinetic energy. However, we must not ignore the principle of conservation of energy. For example, when a ball is thrown from a height, the energy change is from gravitational potential energy to kinetic energy. Thus, height will determine kinetic energy. If the ball is thrown from rest, the initial speed will give rise to kinetic energy.
What do you notice about the relationship between potential energy and height?
Potential energy increases with height - the higher an object is lifted, the greater its potential energy. This relationship is a result of the gravitational force acting on the object, with potential energy being stored as a result of the object's position relative to the Earth's surface.
How the kinetic energy of an object changes when the speed of the object doubles?
Look at the formula for the kinetic energy of an object: KE = 1/2 M V2Did you notice that " V2 " ? That means the KE is proportional to the squareof the object's velocity.So if the object's speed doubles, its KE increases by (2)2 = a factor of 4.
What is energy stored in an object?
Potential energy is work done against a conservative force, such as gravity. You might say it is stored in the force field or force fields. It is often convenient to think of an object (a raised stone, for example) as "having" a certain amount of potential energy, but it is probably more accurate do consider the energy as being in the RELATIONSHIP between the two objects. If the rock and planet Earth are farther apart, there is more potential energy; if they are nearer, there is less potential energy. Just by observing the rock or Earth, you won't notice any energy (like heat, or movement); you have to observe the RELATIONSHIP between the two to conclude that there is potential energy.
Who was the first person to notice the relationship between legs and hypotunice of a right triangle?
Pythagoras
What will the kinetic energy be of an arrow after it is shot if it has a mass of 10 g and has a potential energy of 50 joules before it is shot?
If all of the potential energy is transferred to the arrow's motion as kinetic energy,then when the shot is complete and before any effect of air resistance has kicked in,its kinetic energy is 50 joules.KE = (mass) x (speed)250 = (.01) x V2V = sqrt(5000) = 70.711 meters per second, as it leaves the bow.Oops! Please excuse us. We thought you were going for the arrow's speed as it leftthe bow. Now we notice that you only wanted its kinetic energy. That's 50 joules,and it doesn't make any difference what its mass is. That was a 10-gram red herring.
How does the mass of an object affect its kinetic energy?
Mass is directly proportional to the amount of kinetic energy an object posses according to this formula. Ek= 1/2mv2. There are two factors, which can alter the amount of kinetic energy. 1. The velocity of an object, how much momentum does the object carry. 2. The mass, small or big. if an object with mass of 5kg travelling at 7m/s has an overall kinetic energy of 123j. directly if an object weighing twice to have the same kinetic energy, its mass should be 4.959kg. you can get this using v2=Ek/0.5m.
What did you notice with the pendulum?
Pendulums move in a manner consistent with a harmonic oscillator. When you raise a pendulum, you are giving it potential energy (due to gravity). When you release it, the potential energy decreases counter to increasing kinetic energy as it is accelerated due to gravity. As it passes the lowest position, it begins its upswing, and the kinetic energy (momentum) carries it back up, increasing potential energy and decreasing kinetic energy (as it slows due to gravity pulling down on it). And the entire process repeats on the downswing after it reaches the maximum height of upswing. This process continues until frictional forces, air resistance, and other sources of kinetic inefficiency gradually reduce the overall energy available to the system, and then the pendulum approaches equilibrium at zero kinetic energy with respect to that reference frame.
When should notice be given to terminate the independent contractor relationship?
Notice to terminate an independent contractor relationship should be given according to the terms outlined in the contract between the parties. Typically, a reasonable notice period is specified in the contract, and it is important to adhere to these terms to avoid any legal issues.
Does a jet plane at the point of taking off have kinetic energy or potential enegery?
Yes - because an airplane and a bird both flying exist in a potential field field (gravity) and can be moved by that force, they both have potential energy. How much depends upon their altitude. As well, because they both have a velocity in forward flight, they both have kinetic energy.
How could you determine how much kinetic energy an object has?
by finding its mass and speed
