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The work-energy theorem states that the net work done on an object equals its change in kinetic energy. This fundamental principle connects forces to motion and energy transfer.

Wzór

The calculator finds work using W = F × d × cos(θ)

W: F × d × cos(θ) — F × d × cos(θ)
F: F value — Variable used in the calculation

Przewodnik krok po kroku

1Input the force magnitude, displacement distance, and angle between them
2The calculator finds work using W = F × d × cos(θ)
3Results show work done and the resulting kinetic energy change

Rozwiązane przykłady

Wejście

F = 50 N, d = 10 m, θ = 0°

Wynik

W = 500 J, ΔKE = 500 J

Force perfectly aligned with motion

Częste błędy do unikania

✕Forgetting to apply the cosine factor for non-aligned forces
✕Confusing work with power (work is energy transfer, power is rate)

Często zadawane pytania

Can work be negative?

Yes, when force opposes motion (angle > 90°), work is negative, removing energy from the system.

What if force is perpendicular to motion?

No work is done because cos(90°) = 0; perpendicular forces change direction but not kinetic energy.

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