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Which is the most useful in determining kinetic energy of a 50 g battery powered car traveling a distance of 10 m?
The distance travelled is irrelevant; you need the speed. (Perhaps the problem states that the toy car travels so-and-so far in so-and-so much time; in this case, you can figure out the speed.) The formula for kinetic energy is: KE = (1/2)mv2, that is, 1/2 times the mass times the square of the speed.
What else can I help you with?
How does kinetic affect the stopping distance of a vehicle traveling at 30 mph compared to the same vehicle traveling at 60 mph?
The kinetic energy of the vehicle when it is travelling faster is four times as great. It the brakes apply the same retardation and the friction from the tires on the road surface is unchanged then the stopping time will be four times as long.
What is an example of kinetic energy as it applies to a vehicle?
Kinetic energy is extra energy resultant of motion. So, a moving vehicle has kinetic energy.
What is kinetic head?
"Kinetic head" is not a common term in physics or engineering. It may refer to the kinetic energy of an object traveling with a certain velocity or the energy associated with the movement of fluid in a system. Clarification would be needed to provide a more specific answer.
Is an increase in kinetic energy directly proportional to the time it takes for an object to fall slash distance it falls?
The kinetic energy of a falling object is directly proportional to the distance it falls.But the distance is not directly proportional to the time in fall, so the KE is not directly proportionalto the time either.
What type of general energy is based on motion and depends on an objects speed and mass?
kinetic energyThe formula for determining kinetic energy is KE = 1/2mv2, where m is mass in kg, and v is speed in m/s.
Does traveling at a high speed require greater stopping distance?
Yes, traveling at a higher speed increases the kinetic energy of the vehicle, which means it will require a greater stopping distance to come to a complete stop. This is because the vehicle needs more time and distance to reduce its speed gradually.
Is the energy in and i-pod battery kinetic or potential energy?
i have an i pod and it is kinetic.
How does kinetic affect the stopping distance of a vehicle traveling at 30 mph compared to the same vehicle traveling at 60 mph?
The kinetic energy of the vehicle when it is travelling faster is four times as great. It the brakes apply the same retardation and the friction from the tires on the road surface is unchanged then the stopping time will be four times as long.
What energy is in a traveling bullet?
A traveling bullet primarily carries kinetic energy due to its motion through the air. This kinetic energy is derived from the initial potential energy stored in the bullet when it was fired.
If two bicycles have the same mass but one is traveling at 10 ms and the other is traveling at 15 ms which has more kinetic energy?
The bicycle traveling at 15 m/s has more kinetic energy because kinetic energy is proportional to the square of the velocity. Since the mass is the same for both bicycles, the one traveling faster will have a greater kinetic energy.
How does kinetic energy affect the stopping distance of a small vehicle compared to a large vehicle?
The kinetic energy of a vehicle is directly proportional to its mass and velocity. A larger vehicle will have more kinetic energy than a smaller vehicle traveling at the same velocity. This means that a larger vehicle will require more distance to come to a stop compared to a smaller vehicle, all else being equal.
What is the distance between kinetic and potential energy?
Kinetic and potential energy are a type of energy, not a measurement of distance.
Which car has the most kinetic energy?
A car traveling at a higher speed will have more kinetic energy than a car moving at a slower speed. So, the car with the most kinetic energy would be the one traveling at the highest speed.
How is the braking distance proportional to the square of speed?
The braking distance is proportional to the square of speed because as speed increases, the amount of kinetic energy that needs to be dissipated during braking also increases exponentially. This means that stopping a vehicle traveling at twice the speed will require four times the distance to come to a complete stop due to the increased kinetic energy that needs to be overcome.
How is a charged battery related to kinetic energy?
A charged battery is related to kinetic energy because it provides the electrical energy needed to power devices, which in turn can produce kinetic energy through movement or motion.
Does a car battery have potential or kinetic energy?
its potential
Is a flashlight battery a potential or a kinetic?
potential energy
