FormulaDen.com

Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Loss of Kinetic Energy during Perfectly Inelastic Collision Formula

Fx Copy

LaTeX Copy

Loss of K.E During Perfectly Inelastic Collision is the energy lost by the system during a perfectly inelastic collision where objects stick together. Check FAQs

E L inelastic = \frac{m 1 \cdot m 2 \cdot {(u 1 - u 2)}^{2}}{2 \cdot (m 1 + m 2)}

E_{L inelastic} - Loss of K.E During Perfectly Inelastic Collision?m₁ - Mass of Body A?m₂ - Mass of Body B?u₁ - Initial Velocity of Body A Before the Collision?u₂ - Initial Velocity of Body B Before the Collision?

Loss of Kinetic Energy during Perfectly Inelastic Collision Example

With values

With units

Only example

Here is how the Loss of Kinetic Energy during Perfectly Inelastic Collision equation looks like with Values.

Here is how the Loss of Kinetic Energy during Perfectly Inelastic Collision equation looks like with Units.

Here is how the Loss of Kinetic Energy during Perfectly Inelastic Collision equation looks like.

105.6 = \frac{30 \cdot 13.2 \cdot {(5.2 - 10)}^{2}}{2 \cdot (30 + 13.2)}

105.6J = \frac{30kg \cdot 13.2kg \cdot {(5.2m/s - 10m/s)}^{2}}{2 \cdot (30kg + 13.2kg)}

105.6 = \frac{30 \cdot 13.2 \cdot {(5.2 - 10)}^{2}}{2 \cdot (30 + 13.2)}

Tip: Use pencil ( Pencil

) icon above to edit Input Values and Units.

Calculate

Recalculate

Solution

Copy

Reset

You are here -

Home » Category

Physics » Category

Mechanical » Category

Theory of Machine » fx Loss of Kinetic Energy during Perfectly Inelastic Collision

Loss of Kinetic Energy during Perfectly Inelastic Collision Solution

Follow our step by step solution on how to calculate Loss of Kinetic Energy during Perfectly Inelastic Collision?

FIRST Step Consider the formula

E L inelastic = \frac{m 1 \cdot m 2 \cdot {(u 1 - u 2)}^{2}}{2 \cdot (m 1 + m 2)}

Next Step Substitute values of Variables

∴

E L inelastic = \frac{30kg \cdot 13.2kg \cdot {(5.2m/s - 10m/s)}^{2}}{2 \cdot (30kg + 13.2kg)}

Next Step Prepare to Evaluate

∴

E L inelastic = \frac{30 \cdot 13.2 \cdot {(5.2 - 10)}^{2}}{2 \cdot (30 + 13.2)}

LAST Step Evaluate

∴

E L inelastic = 105.6J

Loss of Kinetic Energy during Perfectly Inelastic Collision Formula Elements

Variables

Loss of K.E During Perfectly Inelastic Collision

Loss of K.E During Perfectly Inelastic Collision is the energy lost by the system during a perfectly inelastic collision where objects stick together.

Symbol: E_{L inelastic}

Measurement: EnergyUnit: J

Note: Value can be positive or negative.

Formulas to find Loss of K.E During Perfectly Inelastic Collision

Mass of Body A

Mass of Body A is the quantity of matter in an object, a measure of its resistance to changes in its motion.

Symbol: m₁

Measurement: WeightUnit: kg

Note: Value should be greater than 0.

Formulas to find Mass of Body A

Mass of Body B

Mass of Body B is the quantity of matter in an object or particle, a measure of its resistance to changes in its motion.

Symbol: m₂

Measurement: WeightUnit: kg

Note: Value should be greater than 0.

Formulas to find Mass of Body B

Initial Velocity of Body A Before the Collision

Initial Velocity of Body A Before the Collision is the velocity of body A before it collides with another body, affecting the motion of both objects.

Symbol: u₁

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Initial Velocity of Body A Before the Collision

Initial Velocity of Body B Before the Collision

Initial Velocity of Body B Before the Collision is the velocity of body B before it collides with another body in a kinetic motion.

Symbol: u₂

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Initial Velocity of Body B Before the Collision

Other formulas in Kinetics category

Go Angular Acceleration of Shaft B given Gear Ratio and Angular Acceleration of Shaft A

α B = G \cdot α A

Go Angular Velocity given Speed in RPM

ω = \frac{2 \cdot π \cdot N A}{60}

Go Centripetal Force or Centrifugal Force for given Angular Velocity and Radius of Curvature

Fc = Mass flight path \cdot ω^{2} \cdot R c

Go Coefficient of Restitution

e = \frac{v 1 - v 2}{u 2 - u 1}

How to Evaluate Loss of Kinetic Energy during Perfectly Inelastic Collision?

Loss of Kinetic Energy during Perfectly Inelastic Collision evaluator uses Loss of K.E During Perfectly Inelastic Collision = (Mass of Body A*Mass of Body B*(Initial Velocity of Body A Before the Collision-Initial Velocity of Body B Before the Collision)^2)/(2*(Mass of Body A+Mass of Body B)) to evaluate the Loss of K.E During Perfectly Inelastic Collision, Loss of Kinetic Energy during Perfectly Inelastic Collision formula is defined as the energy lost by the system when two objects collide and stick together, resulting in a single object with a combined mass and velocity. It is a measure of the energy converted from kinetic energy to other forms during the collision. Loss of K.E During Perfectly Inelastic Collision is denoted by E_{L inelastic} symbol.

How to evaluate Loss of Kinetic Energy during Perfectly Inelastic Collision using this online evaluator? To use this online evaluator for Loss of Kinetic Energy during Perfectly Inelastic Collision, enter Mass of Body A (m₁), Mass of Body B (m₂), Initial Velocity of Body A Before the Collision (u₁) & Initial Velocity of Body B Before the Collision (u₂) and hit the calculate button.

FAQs on Loss of Kinetic Energy during Perfectly Inelastic Collision

What is the formula to find Loss of Kinetic Energy during Perfectly Inelastic Collision?

The formula of Loss of Kinetic Energy during Perfectly Inelastic Collision is expressed as Loss of K.E During Perfectly Inelastic Collision = (Mass of Body A*Mass of Body B*(Initial Velocity of Body A Before the Collision-Initial Velocity of Body B Before the Collision)^2)/(2*(Mass of Body A+Mass of Body B)). Here is an example- 105.6 = (30*13.2*(5.2-10)^2)/(2*(30+13.2)).

How to calculate Loss of Kinetic Energy during Perfectly Inelastic Collision?

With Mass of Body A (m₁), Mass of Body B (m₂), Initial Velocity of Body A Before the Collision (u₁) & Initial Velocity of Body B Before the Collision (u₂) we can find Loss of Kinetic Energy during Perfectly Inelastic Collision using the formula - Loss of K.E During Perfectly Inelastic Collision = (Mass of Body A*Mass of Body B*(Initial Velocity of Body A Before the Collision-Initial Velocity of Body B Before the Collision)^2)/(2*(Mass of Body A+Mass of Body B)).

Can the Loss of Kinetic Energy during Perfectly Inelastic Collision be negative?

Yes, the Loss of Kinetic Energy during Perfectly Inelastic Collision, measured in Energy can be negative.

Which unit is used to measure Loss of Kinetic Energy during Perfectly Inelastic Collision?

Loss of Kinetic Energy during Perfectly Inelastic Collision is usually measured using the Joule[J] for Energy. Kilojoule[J], Gigajoule[J], Megajoule[J] are the few other units in which Loss of Kinetic Energy during Perfectly Inelastic Collision can be measured.

Let Others Know

✖

Facebook

Twitter

Copied!

: Value
: Unit

Loss of Kinetic Energy during Perfectly Inelastic Collision Formula

Loss of Kinetic Energy during Perfectly Inelastic Collision Example

Loss of Kinetic Energy during Perfectly Inelastic Collision Solution

Loss of Kinetic Energy during Perfectly Inelastic Collision Formula Elements

Other formulas in Kinetics category

How to Evaluate Loss of Kinetic Energy during Perfectly Inelastic Collision?

FAQs on Loss of Kinetic Energy during Perfectly Inelastic Collision

Variable Name