Kinematic problem: velocity and stuff

AI Thread Summary
A stone is thrown downward from the CN Tower at 12 m/s from a height of 400 m. To solve for the time it takes to reach the ground and the final velocity upon impact, the equations of motion must be applied, specifically accounting for the initial velocity and gravitational acceleration. The discussion emphasizes that this scenario involves free fall with an initial velocity, requiring the combination of two key equations. Participants highlight the need for the original poster to show attempts at solving the problem to receive further assistance. Understanding these concepts is crucial for solving kinematic problems in physics.
selssk
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1. A stone is thrown vertically downwards from the observation deck of the CN Tower, 400 m above the ground, with a velocity of 12 m/s [down].
A) How long will it take the stone to reach the ground ?
B) How fast will it be going when it hits the ground ?

I just got into physics, so I’m not that much familiar with the type of equation I should use. I’ve been trying to solve this problem for a while, so any help is appreciated ^^
 
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selssk said:
1. A stone is thrown vertically downwards from the observation deck of the CN Tower, 400 m above the ground, with a velocity of 12 m/s [down].
A) How long will it take the stone to reach the ground ?
B) How fast will it be going when it hits the ground ?

I just got into physics, so I’m not that much familiar with the type of equation I should use. I’ve been trying to solve this problem for a while, so any help is appreciated ^^
https://en.m.wikipedia.org/wiki/Equ...translational_acceleration_in_a_straight_line
To get further help you need to show some attempt, as per forum rules.
In future, please fill in the template, don't delete it.
 
haruspex said:
https://en.m.wikipedia.org/wiki/Equ...translational_acceleration_in_a_straight_line
To get further help you need to show some attempt, as per forum rules.
In future, please fill in the template, don't delete it.
I can’t really add anything since I don’t know where to start, if I had done something, I would have added it, but I didn’t. As I said, I just got into physics so this is like my first questions.
 
selssk said:
1. A stone is thrown vertically downwards from the observation deck of the CN Tower, 400 m above the ground, with a velocity of 12 m/s [down].
A) How long will it take the stone to reach the ground ?
B) How fast will it be going when it hits the ground ?

I just got into physics, so I’m not that much familiar with the type of equation I should use. I’ve been trying to solve this problem for a while, so any help is appreciated ^^
Well first of all the object is thrown with an initial velocity which means that this is not free fall. So there are two equations you need to use:
V=Vo + g*t and h= Vo*t + 1/2*g*t*t (where Vo is the initial velocity and g is the gravity acceleration which is constant g=10m/s*s) Now the known data are the height and the initial velocity so you need to combine the two equations and get the result.
 
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PhysicS FAN said:
which means that this is not free fall
It is free fall. It is not free fall from rest.
 
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selssk said:
1. A stone is thrown vertically downwards from the observation deck of the CN Tower, 400 m above the ground, with a velocity of 12 m/s [down].
A) How long will it take the stone to reach the ground ?
B) How fast will it be going when it hits the ground ?

I just got into physics, so I’m not that much familiar with the type of equation I should use. I’ve been trying to solve this problem for a while, so any help is appreciated ^^
$$ {v_f}^2={v_i}^2+2aΔx $$
 
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