How to Calculate Kinetic Energy
Know the formula for calculating kinetic energy., Determine the mass of an object., Calculate the velocity of the object., Write the equation., Plug the mass and velocity into the equation., Solve the equation., Write the equation., Plug in the...
Step-by-Step Guide
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Step 1: Know the formula for calculating kinetic energy.
The formula for calculating kinetic energy (KE) is KE =
0.5 x mv2.
Here m stands for mass, the measure of how much matter is in an object, and v stands for velocity of the object, or the rate at which the object changes its position.Your answer should always be stated in joules (J), which is the standard unit of measurement for kinetic energy.
It is equivalent to 1 kg * m2/s2. -
Step 2: Determine the mass of an object.
If you are solving a problem where the mass isn’t given, you will have to determine the mass yourself.
This can be done by weighing the object on a balance and obtaining the mass in kilograms (kg).
Tare the balance.
Before you weigh your object, you must set it to zero.
Zeroing out the scale is called taring.Place your object on the balance.
Gently, place the object on the balance and record its mass in kilograms.
If necessary, convert grams to kilograms.
For the final calculation, the mass must be in kilograms. , Oftentimes, the problem will give you the velocity of the object.
If this is not the case, you can determine the velocity by using the distance an object travels and how long it takes to cover that distance.The units for velocity are meters per second (m/s).
Velocity is defined by the equation, displacement divided by time:
V = d/t.
Velocity is a vector quantity, meaning it has both a magnitude and a direction.
Magnitude is the number value that quantifies the speed, while direction is the direction in which the speed takes place during motion.
For example, an object’s velocity can be 80 m/s or
-80 m/s depending on the direction of travel.
To calculate velocity, simply divide the distance the object traveled by the time it took to travel that distance. , The formula for calculating kinetic energy (KE) is KE =
0.5 x mv2.
Here m stands for mass, the measure of how much matter is in an object, and v stands for velocity of the object, or the rate at which the object changes its position.Your answer should always be stated in joules (J), which is the standard unit of measurement for kinetic energy.
It is equivalent to 1 kg * m2/s2. , If you don't know the mass or velocity of the object, then you'll have to calculate it.
But let's say that you do know both quantities and are working to solve the following problem:
Determine the kinetic energy of a 55 kg woman running with a velocity of
3.87m/s.
Since you know the mass and velocity of the woman, you can plug it into the equation:
KE =
0.5 x mv2 KE =
0.5 x 55 x (3.87)2 , Once you've plugged in the mass and velocity, you can solve for kinetic energy (KE).
Square the velocity and then multiply all of the variables together.
Remember to state your answer in joules (J).
KE =
0.5 x 55 x (3.87)2 KE =
0.5 x 55 x
14.97 KE =
411.675 J , The formula for calculating kinetic energy (KE) is KE =
0.5 x mv2.
Here m stands for mass, the measure of how much matter is in an object, and v stands for velocity of the object, or the rate at which the object changes its position.Your answer should always be stated in joules (J), which is the standard unit of measurement for kinetic energy.
It is equivalent to 1 kg * m2/s2. , In some problems, you may know the kinetic energy and the mass or kinetic energy and velocity.
The first step to solving this problem is to plug in all of the variables that are known.
Example 1:
What is the velocity of an object with a mass of 30 kg and a kinetic energy of 500 J? KE =
0.5 x mv2 500 J =
0.5 x 30 x v2 Example 2:
What is the mass of an object with a kinetic energy of 100 J and a velocity of 5 m/s? KE =
0.5 x mv2 100 J =
0.5 x m x 52 , Using algebra, you can solve for the unknown variable by rearranging all of the known variables to one side of the equation.
Example 1:
What is the velocity of an object with a mass of 30 kg and a kinetic energy of 500 J? KE =
0.5 x mv2 500 J =
0.5 x 30 x v2 Multiply mass by
0.5:
0.5 x 30 = 15 Divide kinetic energy by the product: 500/15 =
33.33 Square root to find velocity:
5.77 m/s Example 2:
What is the mass of an object with a kinetic energy of 100 J and a velocity of 5 m/s? KE =
0.5 x mv2 100 J =
0.5 x m x 52 Square the velocity: 52 = 25 Multiply by
0.5:
0.5 x 25 =
12.5 Divide kinetic energy by product: 100/12.5 = 8 kg -
Step 3: Calculate the velocity of the object.
-
Step 4: Write the equation.
-
Step 5: Plug the mass and velocity into the equation.
-
Step 6: Solve the equation.
-
Step 7: Write the equation.
-
Step 8: Plug in the known variables.
-
Step 9: Rearrange the equation to solve for the unknown variable.
Detailed Guide
The formula for calculating kinetic energy (KE) is KE =
0.5 x mv2.
Here m stands for mass, the measure of how much matter is in an object, and v stands for velocity of the object, or the rate at which the object changes its position.Your answer should always be stated in joules (J), which is the standard unit of measurement for kinetic energy.
It is equivalent to 1 kg * m2/s2.
If you are solving a problem where the mass isn’t given, you will have to determine the mass yourself.
This can be done by weighing the object on a balance and obtaining the mass in kilograms (kg).
Tare the balance.
Before you weigh your object, you must set it to zero.
Zeroing out the scale is called taring.Place your object on the balance.
Gently, place the object on the balance and record its mass in kilograms.
If necessary, convert grams to kilograms.
For the final calculation, the mass must be in kilograms. , Oftentimes, the problem will give you the velocity of the object.
If this is not the case, you can determine the velocity by using the distance an object travels and how long it takes to cover that distance.The units for velocity are meters per second (m/s).
Velocity is defined by the equation, displacement divided by time:
V = d/t.
Velocity is a vector quantity, meaning it has both a magnitude and a direction.
Magnitude is the number value that quantifies the speed, while direction is the direction in which the speed takes place during motion.
For example, an object’s velocity can be 80 m/s or
-80 m/s depending on the direction of travel.
To calculate velocity, simply divide the distance the object traveled by the time it took to travel that distance. , The formula for calculating kinetic energy (KE) is KE =
0.5 x mv2.
Here m stands for mass, the measure of how much matter is in an object, and v stands for velocity of the object, or the rate at which the object changes its position.Your answer should always be stated in joules (J), which is the standard unit of measurement for kinetic energy.
It is equivalent to 1 kg * m2/s2. , If you don't know the mass or velocity of the object, then you'll have to calculate it.
But let's say that you do know both quantities and are working to solve the following problem:
Determine the kinetic energy of a 55 kg woman running with a velocity of
3.87m/s.
Since you know the mass and velocity of the woman, you can plug it into the equation:
KE =
0.5 x mv2 KE =
0.5 x 55 x (3.87)2 , Once you've plugged in the mass and velocity, you can solve for kinetic energy (KE).
Square the velocity and then multiply all of the variables together.
Remember to state your answer in joules (J).
KE =
0.5 x 55 x (3.87)2 KE =
0.5 x 55 x
14.97 KE =
411.675 J , The formula for calculating kinetic energy (KE) is KE =
0.5 x mv2.
Here m stands for mass, the measure of how much matter is in an object, and v stands for velocity of the object, or the rate at which the object changes its position.Your answer should always be stated in joules (J), which is the standard unit of measurement for kinetic energy.
It is equivalent to 1 kg * m2/s2. , In some problems, you may know the kinetic energy and the mass or kinetic energy and velocity.
The first step to solving this problem is to plug in all of the variables that are known.
Example 1:
What is the velocity of an object with a mass of 30 kg and a kinetic energy of 500 J? KE =
0.5 x mv2 500 J =
0.5 x 30 x v2 Example 2:
What is the mass of an object with a kinetic energy of 100 J and a velocity of 5 m/s? KE =
0.5 x mv2 100 J =
0.5 x m x 52 , Using algebra, you can solve for the unknown variable by rearranging all of the known variables to one side of the equation.
Example 1:
What is the velocity of an object with a mass of 30 kg and a kinetic energy of 500 J? KE =
0.5 x mv2 500 J =
0.5 x 30 x v2 Multiply mass by
0.5:
0.5 x 30 = 15 Divide kinetic energy by the product: 500/15 =
33.33 Square root to find velocity:
5.77 m/s Example 2:
What is the mass of an object with a kinetic energy of 100 J and a velocity of 5 m/s? KE =
0.5 x mv2 100 J =
0.5 x m x 52 Square the velocity: 52 = 25 Multiply by
0.5:
0.5 x 25 =
12.5 Divide kinetic energy by product: 100/12.5 = 8 kg
About the Author
Olivia Russell
Experienced content creator specializing in hobbies guides and tutorials.
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