Find Linear Speed Calculator

Calculate the linear (tangential) speed of a point on a rotating object using our simple linear speed calculator. Enter the radius and rotational speed below.

What is a Linear Speed Calculator?

A linear speed calculator is a tool used to determine the speed of a point moving along a circular path. This speed is also known as tangential speed because the direction of motion is tangent to the circle at any given point. It's the straight-line speed the point would have if it were suddenly released from its circular path. This linear speed calculator takes the radius of the circular path and the rotational speed (often given in Revolutions Per Minute, or RPM) as inputs to find the linear speed.

Anyone studying or working with rotating objects might use a linear speed calculator. This includes engineers designing machinery, physicists studying rotational motion, students doing homework, or even someone curious about the speed of a point on a spinning wheel or a car tire. The linear speed calculator helps convert rotational motion parameters into linear motion parameters.

A common misconception is that all points on a rigid rotating object have the same linear speed. While all points have the same angular speed (how fast they rotate), their linear speeds depend on their distance from the axis of rotation (the radius). Points further from the center move faster linearly.

Linear Speed Formula and Mathematical Explanation

The linear speed (v) of a point on a rotating object is directly proportional to its distance from the center of rotation (radius, r) and the angular velocity (ω) of the object.

The formula is:

v = r × ω

Where:

• v is the linear speed.
• r is the radius (distance from the center of rotation).
• ω is the angular velocity.

Angular velocity (ω) is often derived from the rotational speed given in Revolutions Per Minute (RPM). To convert RPM to radians per second (the standard unit for ω):

ω (radians/second) = RPM × (2π radians / 1 revolution) × (1 minute / 60 seconds) = RPM × 2π / 60

So, the full formula using RPM is:

v = r × (RPM × 2π / 60)

It's crucial to ensure the radius 'r' is in consistent units (like meters) with the desired output speed units (like meters per second).

Variables Table

Variable	Meaning	Unit (SI)	Typical Range
v	Linear Speed (Tangential Speed)	m/s	0 to very high
r	Radius	m	0 to large values
ω	Angular Velocity	rad/s	0 to high values
RPM	Revolutions Per Minute	rev/min	0 to tens of thousands
f	Frequency (Revolutions per second, RPS)	Hz (s^-1)	RPM/60
π	Pi	–	~3.14159

Practical Examples (Real-World Use Cases)

Example 1: Car Tire

A car tire has a radius of 0.35 meters and is rotating at 800 RPM. What is the linear speed of a point on the outer edge of the tire?

Inputs:

• Radius (r) = 0.35 m
• RPM = 800

Calculation:

1. ω = 800 * 2π / 60 ≈ 83.78 rad/s
2. v = 0.35 m * 83.78 rad/s ≈ 29.32 m/s

The linear speed of the edge of the tire relative to the axle is about 29.32 m/s (or about 105.5 km/h or 65.6 mph). This linear speed calculator can quickly give you this result.

Example 2: Hard Drive Platter

A hard drive platter spins at 7200 RPM. A data track is located at a radius of 4 cm (0.04 m) from the spindle.

Inputs:

• Radius (r) = 0.04 m
• RPM = 7200

Calculation:

1. ω = 7200 * 2π / 60 ≈ 753.98 rad/s
2. v = 0.04 m * 753.98 rad/s ≈ 30.16 m/s

The linear speed of the data track is about 30.16 m/s. Using a linear speed calculator helps engineers understand data read/write speeds.

How to Use This Linear Speed Calculator

1. Enter Radius: Input the distance from the center of rotation to the point of interest in the "Radius (r)" field.
2. Select Radius Unit: Choose the appropriate unit for the radius (meters, centimeters, inches, etc.) from the dropdown menu. The linear speed calculator will convert it to meters for calculation.
3. Enter Rotational Speed: Input the speed in Revolutions Per Minute (RPM) into the "Rotational Speed (RPM)" field.
4. Calculate: Click the "Calculate Speed" button, or see the results update automatically if you changed input values.
5. Read Results: The primary result is the linear speed displayed prominently. You'll also see intermediate values like angular velocity in rad/s, RPS, and the radius in meters. The linear speed calculator provides these for better understanding.
6. Table and Chart: Observe the table and chart below the main calculator to see how linear speed changes with different radii at the given RPM, and how it varies with RPM and radius graphically.
7. Reset: Click "Reset" to return to default values.
8. Copy: Click "Copy Results" to copy the main speed, intermediate values, and input parameters.

This find linear speed calculator is designed for ease of use while providing comprehensive results.

Key Factors That Affect Linear Speed Results

1. Radius (r): The most direct factor. Linear speed is directly proportional to the radius. Doubling the radius doubles the linear speed, assuming angular velocity remains constant.
2. Angular Velocity (ω) or RPM: Linear speed is also directly proportional to the angular velocity (or RPM). Doubling the RPM doubles the linear speed for a given radius.
3. Units of Radius: The units used for the radius input significantly affect the calculation if not converted correctly. Our linear speed calculator handles common unit conversions.
4. Rotational Frequency (f): This is the number of revolutions per second (RPS), equal to RPM/60. It's directly related to angular velocity (ω = 2πf).
5. Point of Interest: The specific point on the rotating object whose linear speed you want to find determines the radius 'r'.
6. Rigidity of the Object: The formulas used by the linear speed calculator assume a rigid body, where all points rotate with the same angular velocity. For non-rigid bodies, the situation is more complex.

Frequently Asked Questions (FAQ)

What is the difference between linear speed and angular speed?

Angular speed (or velocity) measures how fast an object rotates or revolves around an axis, typically in radians per second or RPM. All points on a rigid rotating object have the same angular speed. Linear speed (or tangential speed) is the straight-line speed of a point on that object and depends on its distance (radius) from the axis of rotation. The further the point, the higher its linear speed. Our linear speed calculator finds the latter.

What are the units of linear speed and angular speed?

Linear speed is measured in units of distance per time (e.g., m/s, km/h, mph). Angular speed is measured in units of angle per time (e.g., rad/s, degrees/s, RPM).

How do I convert RPM to rad/s?

To convert RPM to radians per second (rad/s), multiply by 2π and divide by 60: ω (rad/s) = RPM × 2π / 60. The linear speed calculator does this automatically.

What if the RPM is zero?

If the RPM is zero, the object is not rotating, so the angular velocity is zero, and the linear speed of any point will also be zero. The linear speed calculator will show 0.

What if the radius is zero?

If the radius is zero, the point is at the center of rotation. Its linear speed will be zero, regardless of the RPM.

Can I calculate angular speed from linear speed and radius?

Yes, if you know the linear speed (v) and the radius (r), you can find the angular velocity (ω) using ω = v / r.

Is tangential speed the same as linear speed?

Yes, for circular motion, tangential speed and linear speed refer to the same quantity – the speed of the object along the tangent to its circular path. This linear speed calculator calculates tangential speed.

Why use a linear speed calculator?

A linear speed calculator saves time and reduces the chance of manual calculation errors, especially when dealing with unit conversions between radius and speed units, or between RPM and rad/s.

Related Tools and Internal Resources

• Angular Velocity Calculator – Calculate angular velocity from RPM or frequency.
• Rotational Speed Converter – Convert between different units of rotational speed (RPM, rad/s, degrees/s).
• Tangential Speed Formula Explained – A detailed look at the formula used by the linear speed calculator.
• How to Calculate Linear Velocity from Angular – Guide on manual calculations.
• Radius and Speed Relationship – Understanding the connection between radius and linear/angular speeds.
• RPM to Linear Speed Conversion Tool – Another tool focusing on this conversion.