Acceleration calculator from force and mass

a = F / m. Divide the net force (N) by the mass (kg). Example: 500 N force on a 25 kg object: a = 500/25 = 20 m/s². This is about 2.04 g-forces. In the F=ma calculator above, enter F and m, leave a blank.

Force Calculator – F=ma | 6 Modes: Weight, Friction, Centripetal & More

Q: What is the force formula?

The fundamental force formula is Newton’s Second Law: F = m × a, where F is the net force in Newtons, m is mass in kilograms, and a is acceleration in m/s². It can be rearranged to find any variable: a = F/m (acceleration from force and mass), m = F/a (mass from force and acceleration). One Newton is defined as the force needed to accelerate 1 kg at 1 m/s².

Q: How to calculate force from mass and acceleration?

Multiply mass by acceleration: F = m × a. Example: a 5 kg object accelerating at 3 m/s² experiences F = 5 × 3 = 15 N. Always use SI units (kg, m/s², N) for consistent results. Use the F=ma calculator above — enter mass and acceleration to find force instantly.

Q: How to calculate acceleration using F=ma?

Rearrange F=ma to a = F/m. Divide the net force (in Newtons) by the mass (in kilograms). Example: a 1000 kg car with a 4000 N engine force: a = 4000/1000 = 4 m/s². In the calculator above, enter F and m and leave a blank — it solves automatically.

Q: What is the weight force formula?

Weight W = m × g, where g is gravitational acceleration (9.807 m/s² on Earth, 1.625 m/s² on the Moon, 3.72 m/s² on Mars). A 70 kg person weighs 70 × 9.807 = 686.5 N on Earth but only 70 × 1.625 = 113.75 N on the Moon. Mass does not change with location; weight does.

Q: How to calculate friction force?

Friction force f = μ × N, where μ is the coefficient of friction (dimensionless) and N is the normal force (in Newtons). For an object on a horizontal surface, N = mg. Example: a 10 kg box on wood (μ = 0.3): N = 10 × 9.81 = 98.1 N, f = 0.3 × 98.1 = 29.4 N. Use the Friction mode above to calculate any of the three variables.

Q: What is centripetal force?

Centripetal force keeps an object moving in a circle. Formula: Fc = mv²/r, where m is mass, v is speed, and r is the radius of the circular path. It always points toward the center of the circle. Example: a 1000 kg car taking a 50 m radius turn at 20 m/s: Fc = 1000 × 400/50 = 8000 N. This force is provided by friction between tyres and road.

Q: What is impulse in physics?

Impulse J is the product of force and time: J = F × Δt. It equals the change in momentum: J = m × Δv. Units: N·s (Newton-seconds) or kg·m/s. Example: a 0.5 kg ball changes velocity by 30 m/s: J = 0.5 × 30 = 15 N·s. If the contact time is 0.03 s: average force F = 15/0.03 = 500 N. Impulse explains why airbags save lives (longer time = smaller force).

Q: What is Newton’s law of universal gravitation?

Every mass attracts every other mass: F = G × m₁ × m₂ / r², where G = 6.674 × 10⁻¹¹ N·m²/kg², m₁ and m₂ are the masses, and r is the distance between centres. Example: Earth-Moon: F = 6.674×10⁻¹¹ × 5.97×10²⁴ × 7.34×10²² / (3.84×10⁸)² ≈ 2.0 × 10²⁰ N.

Q: What is the difference between mass and weight?

Mass is the amount of matter in an object (kg), a constant property that does not change with location. Weight is the gravitational force acting on that mass (N = kg × m/s²), which changes with gravity. A 70 kg astronaut has the same mass on Earth and the Moon but weighs 686 N on Earth and only 114 N on the Moon. In everyday speech, people confuse mass (kg) and weight, but in physics they are different quantities with different units.

Q: How to calculate net force?

Net force is the vector sum of all forces acting on an object: F_net = F₁ + F₂ + F₃... Forces in the same direction add; forces in opposite directions subtract. Example: a 200 N push with 50 N friction opposing: F_net = 200 - 50 = 150 N. Newton’s Second Law uses the NET force: F_net = m × a. If F_net = 0, the object is in equilibrium (no acceleration).

Newton’s Laws

Newton’s Three Laws of Motion — The Foundation of Force Calculations

First Law

Law of Inertia

An object at rest stays at rest, and an object in motion stays in motion at constant velocity, unless acted upon by a net external force. Inertia is resistance to change in motion.

ΣF = 0 ⇒ a = 0

Second Law

F = ma

The net force on an object equals its mass times its acceleration. The direction of acceleration is the same as the direction of the net force. The SI unit of force is the Newton (N = kg·m/s²).

F = m × a

Third Law

Action-Reaction

For every action there is an equal and opposite reaction. If object A exerts force F on B, then B exerts −F on A. These forces act on different objects and never cancel.

Fₐₑ = −Fₕₐ

F = ma

F=ma Calculator — How to Calculate Force, Mass & Acceleration

Newton’s Second Law states that the net force acting on an object equals the product of its mass and acceleration: F = m × a. This single equation is the foundation of classical mechanics. It can be rearranged to solve for any of the three variables.

The force formula — three variants

Force: F = m × a     (N = kg × m/s²)
Acceleration: a = F / m     (m/s² = N / kg)
Mass: m = F / a     (kg = N / (m/s²))

How to calculate force step by step

Example: A 1200 kg car accelerates at 3 m/s². Find the force.
Step 1: Write the formula: F = m × a
Step 2: F = 1200 kg × 3 m/s²
Step 3: F = 3600 N = 3.6 kN

Example: How to calculate acceleration from force and mass:
Force = 500 N, mass = 25 kg
a = F/m = 500/25 = 20 m/s² (≈ 2.04 g)

Force unit conversion table

Unit	Symbol	In Newtons	Use case
Newton	N	1 N	SI base unit; 1 kg·m/s²
Kilonewton	kN	1000 N	Engineering, structural loads
Pound-force	lbf	4.4482 N	Imperial; US engineering
Kilogram-force	kgf	9.8067 N	Everyday weight in metric countries
Dyne	dyn	0.00001 N	CGS system; micro-forces
Meganewton	MN	1,000,000 N	Rocket thrust, large structures

Real-world force examples

Object / scenario	Force (N)	Force (kN)
Ant carrying food	0.000003 N	3 × 10⁻⁹ kN
Picking up a smartphone	~1.5 N	0.0015 kN
Human bite force	~720 N	0.72 kN
Amateur boxer punch	~500 N	0.5 kN
Pro boxer punch	~4,000 N	4 kN
Car emergency braking	~5,000 N	5 kN
Lifting a mid-size car	~15,000 N	15 kN
Formula 1 downforce at speed	~18,000 N	18 kN
Elephant body weight	~50,000 N	50 kN
SpaceX Falcon 9 thrust	7,607,000 N	7,607 kN
Saturn V launch thrust	34,020,000 N	34,020 kN

Force Types

Types of Force — Weight, Friction, Centripetal, Impulse & Gravitation

Weight force calculator — W = mg

Weight is the gravitational force acting on a mass. It is not the same as mass. Mass (kg) is the amount of matter; weight (N) is the force due to gravity. On Earth, g = 9.80665 m/s². A 70 kg person weighs 686.5 N on Earth but only 113.8 N on the Moon (g = 1.625 m/s²).

W = m × g
Example: 70 kg person on Earth: W = 70 × 9.807 = 686.5 N
Same person on Moon: W = 70 × 1.625 = 113.8 N
Same person on Jupiter: W = 70 × 24.79 = 1735.3 N

Friction force calculator — f = μN

Friction is a resistive force that opposes relative motion between surfaces. The friction force equals the coefficient of friction (μ) times the normal force (N). There are two types: static friction (prevents motion from starting) and kinetic friction (opposes motion already occurring). Static μ is always higher than kinetic μ for the same surfaces.

f = μ × N

Typical μ values (static/kinetic):
Ice–ice: 0.05 / 0.03
Wood–wood: 0.50 / 0.30
Rubber–asphalt: 0.80 / 0.70
Steel–steel: 0.15 / 0.12
Rubber–concrete: 0.90 / 0.80

Example: 20 kg box on wood floor (μ = 0.3):
N = mg = 20 × 9.807 = 196.1 N
f = 0.3 × 196.1 = 58.8 N

Centripetal force calculator — Fc = mv²/r

Centripetal force is the net force directed toward the centre of a circular path that keeps an object moving in a circle. It is not an additional force — it is the result of other forces (friction, tension, gravity, normal force). Formula: Fc = mv²/r, where m is mass, v is speed, and r is the radius of the circular path.

Fc = m × v² / r

Example: 1200 kg car taking a 40 m radius turn at 15 m/s:
Fc = 1200 × 225 / 40 = 6750 N
This must be provided by tyre–road friction.

Earth orbiting Sun: Fc = GMm/r² = mv²/r
v = √(GM/r) = 29,800 m/s

Impulse calculator — J = FΔt = mΔv

Impulse is the product of force and time, equal to the change in momentum. J = F × Δt = Δp = m × Δv. Measured in N·s (= kg·m/s). Impulse explains why airbags reduce injury (same momentum change, longer time = smaller force), and why batting stance widens during a swing (longer contact time = greater impulse).

J = F × Δt = m × Δv

Example: Cricket ball (m=0.156 kg) hit from 0 to 40 m/s in 0.002 s:
J = 0.156 × 40 = 6.24 N·s
F = J / Δt = 6.24 / 0.002 = 3120 N

Universal gravitation — F = Gm₁m₂/r²

Newton’s law of universal gravitation: every mass attracts every other mass with a force proportional to the product of their masses and inversely proportional to the square of the distance between them. G = 6.674 × 10⁻¹¹ N·m²/kg².

F = G × m₁ × m₂ / r²
G = 6.674 × 10⁻¹¹ N·m²/kg²

Earth-Moon gravitational force:
m₁ = 5.97 × 10²⁴ kg, m₂ = 7.34 × 10²² kg, r = 3.84 × 10⁸ m
F = 6.674휐⁻¹¹ × 5.97휐²⁴ × 7.34휐²² / (3.84휐⁸)²
F ≈ 1.98 × 10²⁰ N

Comparison

LazyTools vs Other Force Calculators

Feature	LazyTools	Omni Calculator	CalculatorSoup	Calculator.io
Number of physics modes	✅ 6 modes	⚠ 1–2 modes	⚠ 1 mode (F=ma)	⚠ 1 mode
Bidirectional solve (any variable)	✅ All modes	✅ Yes	✅ Yes	⚠ Partial
Planetary gravity (Moon, Mars...)	✅ 7 planets	⚠ Separate tool	❌ No	❌ No
Full unit conversion	✅ kg/g/lb/slug, N/kN/lbf/kgf/dyn	✅ Yes	⚠ Basic	⚠ Basic
Free body diagram	✅ SVG, auto-generated	❌ No	❌ No	❌ No
Real-world force context	✅ Auto log-sorted	❌ No	❌ No	❌ No
Step-by-step working	✅ Every result	❌ No	❌ No	⚠ Partial
No account required	✅ Yes	✅ Yes	✅ Yes	✅ Yes

FAQ

Force Calculator FAQ

What is the force formula?▾

F = m × a. Force (N) = mass (kg) × acceleration (m/s²). Rearranged: a = F/m, m = F/a. 1 Newton = force needed to accelerate 1 kg at 1 m/s².

How to calculate force from mass and acceleration?▾

Multiply: F = m × a. Example: 5 kg at 3 m/s² = 15 N. Enter mass and acceleration in the F=ma tab above, leave F blank.

How to calculate acceleration using F=ma?▾

a = F / m. Example: 1000 kg car, 4000 N force: a = 4000/1000 = 4 m/s² ≈ 0.41 g. Enter F and m, leave a blank.

What is the weight force formula?▾

W = m × g. On Earth g = 9.807 m/s². A 70 kg person weighs 686.5 N on Earth, 113.8 N on Moon, 1735 N on Jupiter. The Weight tab above lets you select any planet.

How to calculate friction force?▾

f = μ × N. Example: 10 kg box, μ = 0.3, N = mg = 98.1 N: f = 0.3 × 98.1 = 29.4 N. Use the Friction tab to solve for f, μ, or N.

What is centripetal force?▾

Fc = mv²/r. The force directed toward the centre of a circular path. Example: 1000 kg car in 50 m radius turn at 20 m/s: Fc = 1000×400/50 = 8000 N.

What is impulse in physics?▾

J = F × Δt = m × Δv. Change in momentum. Units: N·s. Airbags work by increasing Δt, reducing F. 0.5 kg ball from 0 to 30 m/s: J = 15 N·s.

What is Newton’s law of universal gravitation?▾

F = G×m₁×m₂/r². G = 6.674휐⁻¹¹ N·m²/kg². Earth-Moon force: 1.98휐²⁰ N. Use the Gravitation tab for any two masses and distance.

What is the difference between mass and weight?▾

Mass (kg) = amount of matter, constant everywhere. Weight (N) = gravitational force = mg, varies with planet. You weigh 6x less on the Moon but your mass never changes.

How to calculate net force?▾

Add all forces as vectors. Same direction: add magnitudes. Opposite directions: subtract. Example: 200 N push, 50 N friction = 150 N net force. F_net = ma uses net force.

F=ma calculator online free▾

Enter any 2 of F, m, a in the F=ma tab above. All units supported. Step-by-step working shown. Free body diagram generated. Real-world context shown. Free, no account.

What are Newton’s three laws of motion?▾

1st: Inertia — objects resist change in motion (ΣF=0 means a=0). 2nd: F=ma — net force = mass × acceleration. 3rd: Action-reaction — forces come in equal, opposite pairs on different objects.

What unit is force measured in?▾

SI unit: Newton (N) = kg·m/s². Also: kN (1000 N), lbf (4.448 N), kgf (9.807 N), dyn (0.00001 N). The calculator converts between all these automatically.

How does friction coefficient affect force?▾

f = μ × N. Doubling μ doubles friction. Ice: μ ≈ 0.03. Asphalt: μ ≈ 0.7. Static μ > kinetic μ — harder to start motion than maintain it.

What is g-force and how does it relate to acceleration?▾

g-force = a / 9.807. 1 g = 9.807 m/s². Free fall = 1 g. Sports car 0–100 kmh in 3s ≈ 0.94 g. F-16 pull-up ≈ 9 g. Formula 1 braking ≈ 5 g. The F=ma calculator shows g-force for every acceleration result.

Mass calculator from force and acceleration▾

m = F / a. Enter F and a in the F=ma tab, leave m blank. Example: 300 N at 6 m/s² = 50 kg.

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