10.1 Angular acceleration

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Describe uniform circular motion.
Explain non-uniform circular motion.
Calculate angular acceleration of an object.
Observe the link between linear and angular acceleration.

Uniform Circular Motion and Gravitation discussed only uniform circular motion, which is motion in a circle at constant speed and, hence, constant angular velocity. Recall that angular velocity $ω$ was defined as the time rate of change of angle $θ$ :

ω = \frac{Δ θ}{Δ t},

where $θ$ is the angle of rotation as seen in [link] . The relationship between angular velocity $ω$ and linear velocity $v$ was also defined in Rotation Angle and Angular Velocity as

v = rω

ω = \frac{v}{r},

where $r$ is the radius of curvature, also seen in [link] . According to the sign convention, the counter clockwise direction is considered as positive direction and clockwise direction as negative

The given figure shows counterclockwise circular motion with a horizontal line, depicting radius r, drawn from the center of the circle to the right side on its circumference and another line is drawn in such a manner that it makes an acute angle delta theta with the horizontal line. Tangential velocity vectors are indicated at the end of the two lines. At the bottom right side of the figure, the formula for angular velocity is given as v upon r. — This figure shows uniform circular motion and some of its defined quantities.

Angular velocity is not constant when a skater pulls in her arms, when a child starts up a merry-go-round from rest, or when a computer’s hard disk slows to a halt when switched off. In all these cases, there is an angular acceleration , in which $ω$ changes. The faster the change occurs, the greater the angular acceleration. Angular acceleration $α$ is defined as the rate of change of angular velocity. In equation form, angular acceleration is expressed as follows:

α = \frac{Δ ω}{Δ t},

where $Δ ω$ is the change in angular velocity and $Δ t$ is the change in time. The units of angular acceleration are $(rad/s) /s$ , or ${rad/s}^{2}$ . If $ω$ increases, then $α$ is positive. If $ω$ decreases, then $α$ is negative.

Calculating the angular acceleration and deceleration of a bike wheel

Suppose a teenager puts her bicycle on its back and starts the rear wheel spinning from rest to a final angular velocity of 250 rpm in 5.00 s. (a) Calculate the angular acceleration in ${rad/s}^{2}$ . (b) If she now slams on the brakes, causing an angular acceleration of $- 87.3 {rad/s}^{2}$ , how long does it take the wheel to stop?

Strategy for (a)

The angular acceleration can be found directly from its definition in $α = \frac{Δ ω}{Δ t}$ because the final angular velocity and time are given. We see that $Δ ω$ is 250 rpm and $Δ t$ is 5.00 s.

Solution for (a)

Entering known information into the definition of angular acceleration, we get

\begin{array}{l} α & = & \frac{Δ ω}{Δ t} \\ = & \frac{250 rpm}{5.00 s} . \end{array}

Because $Δ ω$ is in revolutions per minute (rpm) and we want the standard units of ${rad/s}^{2}$ for angular acceleration, we need to convert $Δ ω$ from rpm to rad/s:

\begin{array}{l} Δ ω & = & 250 \frac{rev}{min} \cdot \frac{2π rad}{rev} \cdot \frac{1 min}{60 sec} \\ = & 26.2 \frac{rad}{s} . \end{array}

Entering this quantity into the expression for $α$ , we get

\begin{array}{l} α & = & \frac{Δ ω}{Δ t} \\ = & \frac{26.2 rad/s}{5.00 s} \\ = & 5.24 {rad/s}^{2} . \end{array}

Strategy for (b)

In this part, we know the angular acceleration and the initial angular velocity. We can find the stoppage time by using the definition of angular acceleration and solving for $Δ t$ , yielding

Δ t = \frac{Δ ω}{α} .

Solution for (b)

Here the angular velocity decreases from $26.2 rad/s$ (250 rpm) to zero, so that $Δ ω$ is $- 26.2 rad/s$ , and $α$ is given to be $- 87.3 {rad/s}^{2}$ . Thus,

\begin{array}{l} Δ t & = & \frac{- 26.2 rad/s}{- 87.3 {rad/s}^{2}} \\ = & 0.300 s. \end{array}

Discussion

Note that the angular acceleration as the girl spins the wheel is small and positive; it takes 5 s to produce an appreciable angular velocity. When she hits the brake, the angular acceleration is large and negative. The angular velocity quickly goes to zero. In both cases, the relationships are analogous to what happens with linear motion. For example, there is a large deceleration when you crash into a brick wall—the velocity change is large in a short time interval.

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Source: OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9

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