Another question about projectile motion

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Homework Help Overview

The problem involves a stunt man jumping between two buildings, focusing on projectile motion. The scenario includes a horizontal distance of 4.9 m, an initial jump angle of 16 degrees, and an initial speed of 5.1 m/s. The height difference between the buildings is 1.9 m, and the goal is to determine the vertical displacement upon reaching the lower building.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss calculating the x and y components of the initial velocity based on the angle and speed. Questions arise about the relevance of the height difference and how it affects the vertical displacement calculation.

Discussion Status

Participants are exploring various interpretations of the problem, particularly regarding the role of the 1.9 m height difference. Some guidance has been offered on calculating the time of flight and vertical displacement, but there is no explicit consensus on the relevance of all given information.

Contextual Notes

There is a mention of potential extraneous information in the problem, specifically regarding the 1.9 m height difference, which some participants suggest may complicate the analysis.

physics=headache
A stunt man jumps from the top of one building to the top of another building 4.9 m away. after a running start, he leaps at an angle of 16 degrees with respect to the flat roof while traveling at a speed of 5.1 m/s. the other roof is 1.9 shorter than the building from which he jumped. i have to find out his vertical displacement upon reaching the front edge of the lower building with respect to the taller building.

heres my thoughts on what to do: i can use 16 degrees and 5.1 m/s to find the x and y component of the initial velocity. that's all I've got so far.

any help would be appreciated
 
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i can use 16 degrees and 5.1 m/s to find the x and y component of the initial velocity
Right. So what's the problem? Once you've done that, how long does it take him to travel 4.9m horizontally? Then, given his initial VERTICAL velocity, what is his vertical displacement after that length of time?
 
still can't get it

ok i got that, but where does the 1.9 m come in?
 
Presumably it's there to help you learn to distinguish between relevant and extraneous information. :smile:
 
Originally posted by gnome
Right. So what's the problem? Once you've done that, how long does it take him to travel 4.9m horizontally? Then, given his initial VERTICAL velocity, what is his vertical displacement after that length of time?

y(t) = -9.81*t^2 + Voy*t + 1.9m

The jumpers initial height is 1.9m.
 
Nope,

the height you need to find is with respect to the taller building.

The 1.9m is there because either:

1) The jump isn't enough to clear the gap.

or

2) It's there to trip you up with extraneous information.
 
Presumably it's there to help you learn to distinguish between relevant and extraneous information.
When I fire from the hip, I tend to shoot myself in the foot.

Working out the actual numbers, it seems that when he reaches the second building, his vertical displacement
is -3.49m; i.e. his feet hit the wall 1.59m (3.49-1.9) below the roof. That's where the 1.9m height difference comes in.
 
you could find the solution in the Haliday and Resnick book (plane motion). It is solved there.

hhegab
 

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