What is the Tangential Speed of a Saw Tooth at the Edge of a Circular Saw Blade?

What is the tangential speed of the tip of a saw tooth at the edge of the blade?

The tangential speed of the tip of a saw tooth at the edge of the blade, rotating at an angular speed of 117 rad/s on a 0.254-m diameter blade, is approximately 14.859 m/s.

How is tangential speed calculated for a rotating object?

Tangential Speed Calculation

The tangential speed of a rotating object, such as the tip of a saw tooth on the edge of a blade, is defined as the angular speed of the object multiplied by the radius of its rotational path. This can be represented as the equation v = r * ω, where v is the tangential speed, r is the radius, and ω is the angular speed.

In this scenario, the angular speed (ω) is already given as 117 rad/s. The radius (r) can be calculated from the diameter of the saw blade, i.e., r = diameter / 2 = 0.254 m / 2 = 0.127 m.

Substituting these values into the equation, we obtain tangential speed (v) = 0.127 m * 117 rad/s = 14.859 m/s. So, the tangential speed of the tip of the saw tooth at the edge of the blade is approximately 14.859 m/s.

Understanding the concept of tangential speed is crucial in various fields, especially in engineering and physics. It helps in determining the velocity of different parts of rotating objects and machinery.

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