## Problem

The centrifugal force exerted on rotating turbine blades varies directly as the square of velocity. If the centrifugal force of is acting on the blades that move at , find the instantaneous rate of change of the centrifugal force as the velocity increases to . Round the answer to the nearest whole number

## Problem

The centrifugal force exerted on rotating turbine blades varies directly as the square of velocity. If the centrifugal force of is acting on the blades that move at , find the instantaneous rate of change of the centrifugal force as the velocity increases to . Round the answer to the nearest whole number

## Problem

The centrifugal force exerted on rotating turbine blades varies directly as the square of velocity. If the centrifugal force of is acting on the blades that move at , find the instantaneous rate of change of the centrifugal force as the velocity increases to . Round the answer to the nearest whole number

## Problem

Problem

The centrifugal force exerted on rotating turbine blades varies directly as the square of velocity. If the centrifugal force of is acting on the blades that move at , find the instantaneous rate of change of the centrifugal force as the velocity increases to . Round the answer to the nearest whole numberThe centrifugal force exerted on rotating turbine blades varies directly as the square of velocity. If the centrifugal force of is acting on the blades that move at , find the instantaneous rate of change of the centrifugal force as the velocity increases to . Round the answer to the nearest whole number