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Acceleration Calculator – Solve All Equations of Motion Instantly

Acceleration Calculator – Solve All Equations of Motion Instantly

Written by

Irfan Mansuri

in

🚀

Acceleration Calculator

Master Newton’s Laws with our interactive acceleration calculator. Solve for acceleration, velocity change, or time instantly with step-by-step solutions!

📐 Kinematics ⚡ Instant Results 📋 Step-by-Step 📚 NCERT Based
📌 Core Formula
a = (v − u) ÷ t
FIND ACCELERATION
a = (v − u) / t
FIND FINAL VELOCITY
v = u + at
FIND INITIAL VELOCITY
u = v − at
FIND TIME
t = (v − u) / a
🎯

Choose What to Solve

Select a mode and enter your known values

m/s
🔙 m/s
⏱️ s
🔙 m/s
🚀 m/s²
⏱️ s
m/s
🚀 m/s²
⏱️ s
m/s
🔙 m/s
🚀 m/s²
⚖️ kg
🚀 m/s²
🔙 m/s
🚀 m/s²
⏱️ s
⚠️ Please enter valid numbers in all fields!
✅ Result
📋 Step-by-Step Solution
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What is Acceleration?

Acceleration is a vector quantity that describes the rate of change of velocity with respect to time. It can be a change in speed, direction, or both.

a = (v − u) / t
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Average Acceleration

Average acceleration is the total change in velocity divided by total time. It tells us how fast velocity changed over an interval.

a_avg = Δv / Δt

Instantaneous Acceleration

Acceleration at a specific instant in time. It is the second derivative of position or the first derivative of velocity with respect to time.

a = dv/dt = d²x/dt²
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SI Unit & Dimensions

The standard unit of acceleration is metre per second squared (m/s²). Its dimensional formula is [M⁰ L¹ T⁻²].

[M⁰ L¹ T⁻²]
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Newton’s Second Law

Force equals mass times acceleration: F = ma. A net force on an object causes it to accelerate in the direction of the force. More mass = less acceleration for same force.

F = m × a
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Gravitational Acceleration

On Earth’s surface, all objects fall with the same acceleration due to gravity: g = 9.81 m/s² (approx. 10 m/s² in NCERT). This is independent of mass.

g = 9.81 m/s²
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Types of Acceleration

UniformConstant acceleration in a straight line
Non-UniformChanging rate of velocity change
PositiveVelocity increasing with time
Negative (Decel.)Velocity decreasing (retardation)
CentripetalDirected toward center of circular path
GravitationalDue to Earth’s gravity (9.81 m/s²)
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Variables & Symbols

All mathematical symbols used in acceleration formulas

SymbolQuantitySI UnitType
aAccelerationm/s²Vector
vFinal Velocitym/sVector
uInitial Velocitym/sVector
tTimeseconds (s)Scalar
sDisplacementmVector
FForceNewton (N)Vector
mMasskilogram (kg)Scalar
gGravitational Accel.9.81 m/s²Vector
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Key Acceleration Equations

All important formulas — Equations of Motion

Basic Acceleration
a = (v−u) / t
1st Equation of Motion
v = u + at
2nd Equation of Motion
s = ut + ½at²
3rd Equation of Motion
v² = u² + 2as
Newton’s 2nd Law
F = m × a
Centripetal Accel.
a = v² / r
Free Fall
a = g = 9.81 m/s²
Average Accel.
a = Δv / Δt

Free Physics Calculators for Students & Educators
irfanedu.com · Physics Calculator Series · Unit 02: Acceleration

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