A falling package with a parachute is greatly affected by air resistance. Suppose a package (m = 25 kg), dropped from an altitude of y = 1500 m, hits the ground at a speed of v = 45 m/s. Calculate the work done by air resistance. %3D By conservation of energy, the initial total mechanical energy is equal to the final total mechanical energy. Let K be the kinetic energy, U be the gravitational potential energy, and Wair be the work done by the drag force from air resistance. E1 = E2 K1 + U1 + Wair = K2 + U2 Some of the terms in the equation above are zero so it can be simplified to: + Wair Isolating the work done by air resistance, we get: Wair = 4 - m Plugging in the values given, the work done by air resistance is: Wair 2.19 kJ

1. A falling package with a parachute is greatly affected by air resistance. Suppose a package (m = 25 kg), dropped from an altitude of y = 1500 m, hits the ground at a speed of v = 45 m/s. Calculate the work done by air resistance.

   By conservation of energy, the initial total mechanical energy is equal to the final total mechanical energy. Let K be the kinetic energy, U be the gravitational potential energy, and W_air be the work done by the drag force from air resistance.

   E₁ = E₂

   K₁ + U₁ + W_air = K₂ + U₂

   Some of the terms in the equation above are zero so it can be simplified to:

    + W_air = 

   Isolating the work done by air resistance, we get:

   W_air = ½ - m

   Plugging in the values given, the work done by air resistance is:

   W_air = 2.19 kJ

    

   kindly box the answer so that I won't be confused, Thank you!!!

Transcribed Image Text:

A falling package with a parachute is greatly affected by air resistance. Suppose a package (m = 25 kg), dropped from an altitude of y = 1500 m, hits the ground at a speed of v = 45 m/s. Calculate the work done by air resistance. %3D By conservation of energy, the initial total mechanical energy is equal to the final total mechanical energy. Let K be the kinetic energy, U be the gravitational potential energy, and Wair be the work done by the drag force from air resistance. E1 = E2 K1 + U1 + Wair = K2 + U2 Some of the terms in the equation above are zero so it can be simplified to: + Wair Isolating the work done by air resistance, we get: Wair = 4 - m Plugging in the values given, the work done by air resistance is: air 2.19 kJ