Missile Motion: Calculating Time, Distance, and Direction

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Homework Help Overview

The discussion centers around a physics problem involving the motion of a missile fired horizontally from an aircraft carrier. The problem includes calculating the time the missile is in the air, the distance it travels, and understanding the nature of its motion in terms of constant and accelerated directions.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the principles of projectile motion and the relevant equations of motion. Some suggest starting with a conceptual understanding of the problem, while others emphasize the importance of visualizing the scenario. Questions arise regarding the separation of horizontal and vertical motion, and the implications of gravity on the missile's trajectory.

Discussion Status

Participants have offered guidance on approaching the problem, including breaking it down into horizontal and vertical components. There is acknowledgment of the need for clarification on certain concepts, and some participants express confidence in the original poster's reasoning. Multiple interpretations of the problem are being explored, particularly regarding the nature of constant and accelerated motion.

Contextual Notes

There is mention of the urgency of the original poster's situation, indicating that this is for exam review rather than a graded assignment. The discussion reflects a mix of understanding and uncertainty about the physics involved.

allicat
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HELP! Semester Exam on Monday!

Homework Statement



A missile is fired horizontally from an aircraft carrier in the ocean. Assuming the missile was shot from a height of 50m and a horizontal velocity of 200m/s...
a. How long is it in the air?
b. How far away will the missile land?
c. Explain which direction of motion is constant and which is accelerated. Why is this true?

I am completely lost and my teacher is inaccessable. Please help me!

Thank You
Allison :)
 
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This forum has a few rules on not helping too much. So I'm hoping you already know the answers, but just need a bit of help!

Start with what you know about projectile motion. What laws/principles does it obey? Also, are you meant to derive the answer using calculus, or just use the equations of motion (a.k.a. SUVAT equations)?
 


Allison, the inclusion of "urgent" or "asap" into thread titles, are pretty good indicators that the poster hasn't done enough work to keep himself/herself well-founded in their field of study. PF is a wonderful resource. Please use it when you are seeking clarification and and trying to advance your knowledge. If you jam in here looking for a bail-out from some imminent disaster, that's not a problem that people want to help you with. PF is all-volunteer, with some of us willing to help Greg with expenses (the gold people). We are usually quite willing to help any student that has made an honest effort and can see that their work is somehow faulty.
 


I do know that we are to use the equations of motion and...
displacement= (initial velocity)(change in time) + 1/2 (acceleration)(change in time)^2

But sadly, that's about it.

Physics doesn't come easily to me, I am more of a Literature/History minded individual, but I am here to clarify things that will be on the Exam that I am unfamaliar with.
 


First step: deep breath and then draw a picture.
When I was in HS I thought my intelligence was being insulted when this advice was given to me, but as a physics undergrad I start every test this way.

Start with question c. That doesn't involve math and may help you understand the whole question better.

When you get to the math problems, just split it into two directions. If you are unsure, just pretend you are 50m tall and can throw a dart at 200m/s and think about what happens (carefully).

For clarification, is this a problem that will be handed in and graded? or is it a practice problem? Just like in Lit/Hist you need to give your own answer before somebody else can critique your work. Describe (using words and or math) what you might try in order to get an answer. No matter how lost you think you are, I bet you can figure it out.
 


Haha, I cannot draw worth a darn, but I will do my best. This is Exam Review, practice problems.

The direction of motion that's constant would be to horizontal, since the vertical changes when the missile declines?... As for the acceleration, it would be vertical? Being that it rises/declines?...


(I'm not even sure what the correct terminology would be)
 
Last edited:


Picture doesn't have to be good. Give it a shot and post what you have... and next time give yourself more than a few days!
 


Thanks, and I would have had I not only discovered PF this AM
 


How long does it take for a missile to fall 50m with an initial y velocity of 0m/s?

you know the distance d, you know the initial y velocity and you know gravity

Figure out which equation to use

When you have found the time it takes how do you find the distance traveled in the x direction when you know two things the initial velocity of the missile and the time it travels for and there is no acceleration in the x direction
 
  • #10


okay, I think I've got it...

a)
h=50
v=200
a=9.8
t=?

h=(1/2)agt^2
50=(.5)(9.8)t^2
50=4.9t^2
√10.20 = √t^2
t=3.19s

b)r=?
R=vt
R=(200)(3.19)
R=638m

c) Horizontal motion is constant because there aren't horizontal forces acting on the missile
Verical motion is accelerated because of gravity pulling the missle down
These are true because only gravity is acting on the missile


THOUGHTS?..
 
  • #11


Liquidxlax said:
How long does it take for a missile to fall 50m with an initial y velocity of 0m/s?

you know the distance d, you know the initial y velocity and you know gravity

Figure out which equation to use

When you have found the time it takes how do you find the distance traveled in the x direction when you know two things the initial velocity of the missile and the time it travels for and there is no acceleration in the x direction

Thank you :) that was a BIG help!
 
  • #12


Looks good
 
  • #13


allicat said:
THOUGHTS?..

Looks correct to me. Nice work. A lot of people don't realize that it is OK to separate the horizontal and vertical motion. (for example, me, when I was first learning this stuff).
 
  • #14


Y'all are the best!
 

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