Question

A lawn mower has a flat, rod-shaped steel blade that rotates about its center. The mass of the blade is 0.65 kg and its length is 0.55 m. You may want to review (Pages 314 - 318) . Part A What is the rotational energy of the blade at its operating angular speed of 3510 rpm

Answer 1

Complete Question

A lawn mower has a flat, rod-shaped steel blade that rotates about its center. The mass of the blade is 0.65 kg and its length is 0.55 m. You may want to review (Pages 314 - 318) .

Part A What is the rotational energy of the blade at its operating angular speed of 3510 rpm

Part B

If all of the rotational kinetic energy of the blade could be converted to gravitational potential energy, to what height would the blade rise?

Answer:

Part A  

    $R = 1081 \ J$

Part B  

     $h = 169.7 \ m$

Explanation:

From the question we are told that

  The mass of the blade is  $m_b = 0.65 \ kg$

   The length is  $l = 0.55 \ m$

   The angular speed is  $w = 3510 rpm = 3510 * \frac{2 \pi }{60} = 367.6 \ rad/sec$

Generally the moment of inertia of the of this mower is mathematically evaluated as

         $I = \frac{m_b * l^2 }{12}$

substituting values

         $I = \frac{0.65 * 0.55^2 }{12}$

         $I = 0.016 \ kg m^2$

Generally the rotational kinetic energy of the bland is  

        $R = \frac{1}{2} * I * w^2$

substituting values

       $R = \frac{1}{2} * 0.016 * 367.6^2$

     $R = 1081 \ J$

At point where the gravitational potential energy is equal to the rotational kinetic energy  we have that

       $P = R = m_b * h * g$

Where P is the  gravitational potential energy

substituting values

          $1081 = 0.65 * 9.8 * h$

=>       $h = 169.7 \ m$