Kinematics Question: Metal Box and Parachute Freefall Calculation

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A metal box with a parachute is dropped from a helicopter, experiencing a total opposing force of 30N and a combined mass of 5.0 kg. The resultant downward force is calculated to be 20N, leading to a final velocity of 24 m/s upon striking the ground after a fall of 2.4 seconds. The average velocity during the fall is confirmed to be 12 m/s, calculated as the mean of the initial and final velocities. The discussion emphasizes the importance of vector addition over the F=ma equation in this context. The calculations are validated and clarified throughout the conversation.
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Homework Statement


A metal box, attached to a small parachute, is dropped from a helicopter.

The total force opposing the motion of the box and parachute at a particular instant during its fall is 30N. The combined mass of the box and parachute is 5.0 kg. Calculate the resultant downward force on the box and parachute (assume g = 10 m/s²).

At the end of the fall, the parachute is caught on a tall tree. The box is then cut loose and falls from rest to the ground. The time of fall is 2.4 seconds. Calculate

i) the velocity which the box strikes the ground.
ii) average velocity during the fall
iii) the distance fallen


Homework Equations





The Attempt at a Solution



I calculated the resultant force of the box and parachute to simply be:

F(resultant) -f = ma
F(resultant) - 30 ( 5 x 10)
F(resultant) = 20N

I have also calculated the velocity which the box strikes the ground.

i) a = (v-u)/t
10 = v-0/2.4
v =24m/s

For the average velocity during the fall, can someone advise me what would it be?
 
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n707jt said:
I calculated the resultant force of the box and parachute to simply be:

F(resultant) -f = ma
F(resultant) - 30 ( 5 x 10)
F(resultant) = 20N
Correct answer, but be careful with your reasoning. This is not an 'F=ma' problem, but just a problem in adding vectors to find ΣF.

I have also calculated the velocity which the box strikes the ground.

i) a = (v-u)/t
10 = v-0/2.4
v =24m/s
OK.

For the average velocity during the fall, can someone advise me what would it be?
You have the initial and final velocities, so what do you think?
 
Doc Al said:
Correct answer, but be careful with your reasoning. This is not an 'F=ma' problem, but just a problem in adding vectors to find ΣF.


OK.


You have the initial and final velocities, so what do you think?

Is it simply (24+0)/2 ? Correct me if I am wrong please.
 
n707jt said:
Is it simply (24+0)/2 ? Correct me if I am wrong please.
Yes, that is correct.
 
Doc Al said:
Yes, that is correct.

Thank you very much.
 

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