What is centripetal force?

Centripetal force is the inward force that keeps an object moving in a circular path.

Is velocity constant in circular motion?

No, velocity changes continuously because the direction of motion changes, even if speed is constant.

Where is circular motion used in real life?

Circular motion is used in satellites, vehicles on curved roads, washing machines, amusement rides, and turbines.

Is this calculator useful for JEE and NEET?

Yes, it is extremely useful for JEE, NEET, and other competitive physics exams.

Circular Motion Calculator 🌀 | Velocity, Force & Acceleration

🌀 Circular Motion Calculator

Q: What is circular motion?

Circular motion is the movement of an object along a circular path at a constant radius from a fixed center.

Calculate Velocity, Centripetal Force, Acceleration, Period & Frequency easily ⚡

Mass (kg) Radius (m) Velocity (m/s) Time Period (seconds)

Formulas Used:
Centripetal Acceleration: a = v² / r
Centripetal Force: F = m v² / r
Time Period: T = 2πr / v
Frequency: f = 1 / T

✍️ Author & Academic Authority: Dr. Nitish Kr. Bharadwaj
📘 Qualifications: B.Sc., B.Ed., M.Sc., Ph.D. (Biochemistry), MBA (Financial Management)

🔬 Introduction – Circular Motion Calculator

The Circular Motion Calculator is a powerful free online physics tool designed to instantly compute centripetal force, angular velocity, tangential velocity, centripetal acceleration, time period, and frequency involved in uniform circular motion 🔄⚙️.

Circular motion is a fundamental concept in classical mechanics, where an object moves along a circular path at constant speed, yet continuously changes direction due to centripetal acceleration. This calculator eliminates manual formulas and instantly delivers accurate, real-time results, making it ideal for students, teachers, engineers, competitive exam aspirants (JEE / NEET), and researchers 📊🧠.

🌍 Applications of Circular Motion in Daily Life

Circular motion is everywhere around us 🔁🌐. Some real-world applications include:

🚗 Vehicle Motion on Curved Roads – Banking of roads uses centripetal force
🛰️ Satellites & Space Stations – Orbital mechanics
🧺 Washing Machines – Spin-dry mechanism
🎢 Amusement Park Rides – Roller coasters, giant wheels
🧲 Particle Accelerators – Charged particles in magnetic fields
⚙️ Mechanical Engineering – Rotating shafts and turbines
📡 Communication Satellites – Stable circular orbits.

⚠️ Educational Disclaimer

This Circular Motion Calculator is developed strictly for educational, academic, and informational purposes. While it uses standard physics equations and scientifically verified formulas, results may slightly vary due to rounding or ideal assumptions. For critical engineering, research, or real-world safety applications, always consult a qualified physics expert or professional engineer 🧑‍🔬📐.

❓FAQs – Circular Motion

❓ What is circular motion?

Circular motion occurs when an object moves along a circular path while maintaining a constant distance from a fixed center 🔄.

❓ Is speed constant in uniform circular motion?

Yes, the magnitude of speed remains constant, but velocity changes due to continuous direction change.

❓ Why is centripetal force required?

Centripetal force keeps the object moving in a circular path by pulling it toward the center 🎯.

❓ Can circular motion occur without force?

❌ No. Without centripetal force, the object moves in a straight line due to inertia.

❓ Is circular motion used in competitive exams?

✅ Absolutely! Circular motion is a high-weightage topic in JEE, NEET, Olympiads, and engineering exams 📘.

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