relation between radius of the ball bearing and terminal velocity
Answers
Answered by
2
Terminal velocity can be defined as the point at which the force of gravity equals the drag force. It will depend on:a) the mass b) cross sectional areac) drag coefficient of the objectd) the density of the fluid through which the object is fallinge) gravitational acceleration
Larger objects, therefore, take longer to attain terminal velocity
The larger the radius of the ball bearing, the lower the terminal velocity
Larger objects, therefore, take longer to attain terminal velocity
The larger the radius of the ball bearing, the lower the terminal velocity
Answered by
2
Answer:
Terminal velocity can be defined as the point at which the force of gravity equals the drag force. It will depend on:a) the mass b) cross sectional areac) drag coefficient of the objectd) the density of the fluid through which the object is fallinge) gravitational acceleration
Larger objects, therefore, take longer to attain terminal velocity
The larger the radius of the ball bearing, the lower the terminal velocity
Explanation:
Similar questions