Final answer:
The angular speed of the tip of the minute hand on a clock can be determined by dividing the distance traveled by the tip of the minute hand by the time it takes to travel that distance.
Step-by-step explanation:
The angular speed of the tip of the minute hand on a clock can be determined by dividing the distance traveled by the tip of the minute hand by the time it takes to travel that distance. In this case, the distance traveled is equal to the circumference of the clock face, which is given by 2π times the radius of the clock. The time it takes to travel that distance is equivalent to 60 minutes, since the minute hand completes one full rotation in an hour. Therefore, the angular speed of the tip of the minute hand is:
Angular speed = distance/time = 2πr/60
where r is the radius of the clock. To calculate the angular speed, you can substitute the value of the radius into the equation.