Motion in Two and Three Dimensions and airplane

AI Thread Summary
The discussion focuses on calculating the distance from which an airplane should release a bomb to hit a target while flying at an altitude of 0.50 km and a speed of 150 km/h. Participants explore the use of kinematic equations to determine the time of fall and the horizontal distance traveled. The correct answer for the release distance is established as 417 meters, with calculations involving unit conversions and the gravitational constant. Participants acknowledge initial errors in unit conversion and appreciate the collaborative problem-solving process. The conversation highlights the importance of accurate calculations in physics problems involving motion in two and three dimensions.
patelkey
Messages
16
Reaction score
0
The airplane shown is in level flight at an altitude of 0.50 km and a speed
of 150 km/h. At what distance d should it release a heavy bomb to hit the
target X?

-I tried using x-x0=(v0)(cos(theta))t; and then solving for t with another equation but that does not give me the correct answer when I solve for x. Any suggestions?
 
Physics news on Phys.org
Assume it isn't moving for a second. h=500m=0.5*g*t^2 => t=sqrt(2*500m/(10m/s^2)). So it will be in the air for this long. Now assume it is moving along the x-axis for this period of time, t. The distance it will travel will simply be t*(horizontal speed). So if it is moving at 2.5km/s, the distance d will be (2.5km/s)*sqrt(2*500m/(10m/s^2)).

Does this help?
 
No I actually got that answer through a different method, however, the correct answer is 417 m.
 
I'm getting the correct answer to be 414.1m, and that is using what I explained earlier. Except I converted units wrong because I'm tired. :) 150km/h = 41m/s

d=(41m/s)*sqrt(2*500m/(9.8m/s^2))=414m. This is definitely correct.
 
150km/h=41.6666667m/s
==>
d=(41.6666667m/s)*sqrt(2*500m/(9.8m/s^2))=417m

Thar's your 417m.
 
Wow your right
I also converted units wrong
this problem was really annoying,
thanks for the help!
 
Thread 'Is 'Velocity of Transport' a Recognized Term in English Mechanics Literature?'

Thread 'Is 'Velocity of Transport' a Recognized Term in English Mechanics Literature?'

Here are two fragments from Banach's monograph in Mechanics I have never seen the term <<velocity of transport>> in English texts. Actually I have never seen this term being named somehow in English. This term has a name in Russian books. I looked through the original Banach's text in Polish and there is a Polish name for this term. It is a little bit surprising that the Polish name differs from the Russian one and also differs from this English translation. My question is: Is there...
View full post »

Thread 'Effect of mass on the acceleration of an elastic pendulum?'

I know that mass does not affect the acceleration in a simple pendulum undergoing SHM, but how does the mass on the spring that makes up the elastic pendulum affect its acceleration? Certainly, there must be a change due to the displacement from equilibrium caused by each differing mass? I am talking about finding the acceleration at a specific time on each trial with different masses and comparing them. How would they compare and why?
View full post »

Similar threads

How to Solve Projectile Motion Problems in One or Two Lines
Replies
1
Views
3K
Final Exam Review: Motion of an Airplane
Replies
1
Views
3K
Uniform Motion in 2D - A man chasing a bus
Replies
20
Views
1K
Projectile Motion in an Electric field
Replies
8
Views
2K
Projectile Motion- Plane releases payload
Replies
6
Views
2K
Projectile motion: solving for variable angle
Replies
4
Views
4K
How Do Equations of Motion Apply When Acceleration is Constant?
Replies
1
Views
1K
Why is my answer wrong? Projectile Motion
Replies
3
Views
4K
Period of Motion from Equations of Motion
Replies
10
Views
2K
Kinematics of a falling object to hit target
Replies
3
Views
3K

Hot Threads

Recent Insights

Back
Top