Finding Acceleration Due To Gravity

AI Thread Summary
To find the acceleration due to gravity on the Gak's planet, the initial approach using average speed was incorrect, as it does not account for the changing speed of the falling ball. Instead, the correct formula to use is d = vt + (1/2)at², where the initial velocity (v) is zero. By substituting the known distance (4.04 m) and time (0.712 s) into this equation, the acceleration can be calculated without needing the radius or mass of the planet. This method allows for the determination of gravity based solely on the distance fallen and time taken. The discussion emphasizes the importance of using the correct kinematic equations for such problems.
Dave Johnson
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Homework Statement


A Gak it a type of alien that lives on a planet in another galaxy. One day a Gak decides to find out a little more about his planet. He drops a ball (it starts at rest) with a mass of 4.88 kg and notes that it takes 0.712 s to fall a distance of 4.04 m.

What is the acceleration due to gravity on the Gak’s planet?

Homework Equations


mgh = 0.5mv^2

The Attempt at a Solution


V = 4.04/0.712 = 5.67m/s
g = (0.5V^2)/h = [0.5(5.67)^2]/4.04 = 3.98ms^-2

However, answer is incorrect. Can someone kindly help me please?
 
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Your method of getting v is wrong. It only gives you the average speed. The instantaneous speed of the ball is changing all the time, as it falls. You should be able to use a formula which does not involve the speed, but involves only the quantities for which the data is given.
 
I see... But i can't seem to find any formula without any given radius.
 
Sorry. What is the radius we are talking about here?
 
the formula for acceleration due to gravity is g = G*M/R^2. R is the radius
 
But the data for the radius and mass are not given. So how do you use that?
 
Yap that why i said its hard to solve this question without radius.
 
Can you think of a formula that connects the distance the ball drops to time?
 
d = vt + (1/2)at2?
 
  • #10
What is v in your formula?
 
  • #11
0
 
  • #12
So now you can find g, right?
 
  • #13
yap cheers
 

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