Magnitude Of Resultant Force Equation

Resultant Force Formula:

\[ F = \sqrt{F1^2 + F2^2 + 2 \times F1 \times F2 \times \cos(\theta)} \]

Resultant Force (F):

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1. What is the Magnitude of Resultant Force?

Definition: This calculator computes the magnitude of the resultant force when two forces act at an angle to each other.

Purpose: It helps in physics and engineering to determine the net effect of two forces acting at an angle.

2. How Does the Calculator Work?

The calculator uses the formula:

\[ F = \sqrt{F1^2 + F2^2 + 2 \times F1 \times F2 \times \cos(\theta)} \]

Where:

\( F \) — Resultant force (Newtons)
\( F1 \) — First force (Newtons)
\( F2 \) — Second force (Newtons)
\( \theta \) — Angle between the forces (degrees)

Explanation: The formula combines vector components of both forces considering their magnitude and direction.

3. Importance of Resultant Force Calculation

Details: Understanding resultant forces is crucial for structural analysis, mechanical design, and solving physics problems involving multiple forces.

4. Using the Calculator

Tips: Enter both force values in Newtons and the angle between them in degrees (0-180°). All values must be positive.

5. Frequently Asked Questions (FAQ)

Q1: What happens when θ = 0°?
A: When forces act in the same direction, the resultant is simply the sum of F1 and F2.

Q2: What happens when θ = 90°?
A: At 90°, the formula simplifies to Pythagorean theorem: F = √(F1² + F2²).

Q3: What happens when θ = 180°?
A: When forces act in opposite directions, the resultant is the absolute difference between F1 and F2.

Q4: Can I use this for more than two forces?
A: No, this calculator is for two forces only. For more forces, you'd need to combine them pairwise.

Q5: What units should I use?
A: The calculator uses Newtons (N) for force and degrees for angle. Ensure consistent units.