Impulse-Momentum Calculator F Δt = m Δv

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Impulse-Momentum Calculator

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\( F = \dfrac{m \Delta v}{\Delta t} \)

applied force

F =

units

change in time

Δt =

mass

m =

change in velocity

Δv =

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Answer:

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Calculator Use

The Impulse Momentum Calculator uses the formula FΔt = mΔv, or force F multiplied by the change in time Δt equals mass m times the change in velocity Δv.

Calculate force F, change in time Δt, mass m, velocity change Δv, initial velocity v₁ or final velocity v₂. We also calculate impulse J (Δp) and provide it below the answer for all calculations.

Impulse-Momentum Formula

\( FΔt = mΔv \)

Where:

F = applied force
Δt = change in time
m = mass
Δv = change in velocity

In this calculator we use Δt as the time interval. Instead of entering initial time t₁ and final time t₂, just enter the elapsed time.

You may recognize the left side of the impulse-momentum equation from the impulse formula:

\( J = FΔt \)

and the right side of the equation from the momentum formula:

\( p = mv \)

Change in momentum can be written as:

\( Δp = mΔv \)

As impulse is the change in momentum we get the impulse-momentum equation from the equality:

\( J = FΔt = Δp = mΔv \)

Calculations Using the Impulse Momentum Formula:

Use the impulse momentum equation to find force, elapsed time, mass, change in velocity, v₁, or v₂.

Calculate F | Given m, Δv, Δt
Calculate force given mass, change in velocity and change in time.

\( F = \dfrac{m \Delta v}{\Delta t} \)

Calculate F | Given m, v2, v1, Δt
Calculate force given mass, initial velocity, final velocity and change in time.

\( F = \dfrac{m (v_2 - v_1)}{\Delta t} \)

Calculate Δt | Given m, Δv, F
Calculate elapsed time given mass, change in velocity and force.

\(\Delta t = \dfrac{m \Delta v}{F} \)

Calculate Δt | Given m, v2, v1, F
Calculate elapsed time given mass, initial velocity, final velocity and force.

\(\Delta t = \dfrac{m (v_2 - v_1)}{F} \)

Calculate m | Given F, Δt, Δv
Calculate mass given force, change in time and change in velocity.

\( m = \dfrac{F \Delta t}{\Delta v} \)

Calculate m | Given F, Δt, v2, v1
Calculate mass given force, change in time, initial velocity and final velocity.

\( m = \dfrac{F \Delta t}{v_2 - v_1} \)

Calculate Δv | Given F, Δt, m
Calculate change in velocity given force, change in time and mass.

\( \Delta v = \dfrac{F \Delta t}{m} \)

Calculate v1 | Given F, Δt, m, v2
Calculate initial velocity given force, change in time, mass and final velocity.

\( v_1 = v_2 - \dfrac{F \Delta t}{m} \)

Calculate v2 | Given F, Δt, m, v1
Calculate final velocity given force, elapsed time, mass and initial velocity.

\( v_2 = \dfrac{F \Delta t}{m} + v_1 \)