What is the trajectory of a ball thrown from a building?

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Homework Help Overview

The discussion revolves around the trajectory of a ball thrown from the top of a 60-meter high building with an initial velocity of 30 m/s upward. The problem includes multiple parts, focusing on determining the time to reach maximum height, maximum height, total time in the air, and the velocity just before hitting the ground.

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  • Mixed

Approaches and Questions Raised

  • Participants discuss the calculations for maximum height and time in the air, with some questioning the use of initial velocity and the equations applied. There is mention of using kinematic equations and conservation of energy as potential approaches.

Discussion Status

There is an ongoing exploration of different methods to solve the problem, with participants providing guidance on the equations to use. Some confusion remains regarding the initial conditions and the correct application of formulas, but there is a collaborative effort to clarify these points.

Contextual Notes

Participants note the complexity of the problem and the potential for mistakes when working late at night. The original poster expresses uncertainty about their calculations, particularly regarding the time and velocity at specific points in the trajectory.

Eiano
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Hello!

I've been working on this problem for a while and our book doesn't have a solutions manual. It has 4 parts to it and I've solved 2 already, (I think) and the last 2 are just getting to me.

-A ball is thrown from the top of a building and is given an initial velocity of 30 m.s upward. The building is 60M high.

1). Determine the time needed for the stone to reach its max height
vf=at+vi
-30=-10t, t=3

2). Maximum height?
d= .5AT^s +viT
.5(-10)(3)^2+30(3)
= -5(9)+ 90
=15M

Velocity of the ball just before it hits the ground and the total time the ball is in the air?

What i did was
x=volt +.5AT^2 and solved for T but that can't be right because the answer i get is less that 7 seconds, and question following this says find the velocity and position at 7 sec. so it has to be AT LEAST 7 sec.

then i substituted that t for v=vo+at. so really, the 4th question is not the problem it's the 3rd.

Any help is appreciated
 
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Eiano said:
Velocity of the ball just before it hits the ground and the total time the ball is in the air?

What i did was
x=volt +.5AT^2 and solved for T but that can't be right because the answer i get is less that 7 seconds, and question following this says find the velocity and position at 7 sec. so it has to be AT LEAST 7 sec.

then i substituted that t for v=vo+at. so really, the 4th question is not the problem it's the 3rd.

Why do you have volt? vo is supposed to be zero (this is the velocity in the beginning).
So you need only x = ½gt^2 and after that v = at.

(Or you can use conservation of mechanical energy mgh = ½mv^2).
 
KingOfTwilight said:
Why do you have volt? vo is supposed to be zero.
So you need only x = ½gt^2.


isnt Vo the initial velocity which is 30 m/s?
 
Eiano said:
isnt Vo the initial velocity which is 30 m/s?

I shouldn't be doing this in the night... I'm making mistakes all the time, sorry.
You know the time to go to the max height. Then you can calculate the time to drop from that height to the ground and use the knowledge in my 1st post.

EDIT:

After clearing my mind: yes you can use the one below too.
Check the answer by doing the both approaches.
 
Last edited:
KingOfTwilight said:
Oh, sorry, yes it is. So, you will have to use x = x0 + v0T + ½aT^2.
x0 is the height of the building.


ahh i forgot the x0, you are right, thank you!
 
KingOfTwilight said:
I shouldn't be doing this in the night... I'm making mistakes all the time, sorry.
You know the time to go to the max height. Then you can calculate the time to drop from that height to the ground and use the knowledge in my 1st post.

EDIT:

After clearing my mind: yes you can use the one below too.
Check the answer by doing the both approaches.


it's okay! at least there was someone out there to help me. again, i appreciate it!
Thanks. :)
 

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