How Do You Calculate Rocket Acceleration with Limited Information?

  • Thread starter Thread starter FancyNut
  • Start date Start date
Click For Summary
SUMMARY

The discussion revolves around calculating the acceleration of a 1000 kg weather rocket during its initial 16 seconds of launch. The rocket experiences constant acceleration before the motor stops, followed by a deceleration due to gravity for the next 4 seconds. The total altitude reached after 20 seconds is 5100 m. By applying kinematic equations, the acceleration can be determined using the relationship between the displacements during both phases of the flight.

PREREQUISITES
  • Kinematic equations of motion
  • Understanding of constant acceleration and deceleration
  • Basic principles of physics related to forces and motion
  • Concept of gravitational acceleration (g = 9.81 m/s²)
NEXT STEPS
  • Study the derivation of kinematic equations for uniformly accelerated motion
  • Learn how to apply Newton's laws of motion in real-world scenarios
  • Explore the effects of gravity on projectile motion
  • Investigate the relationship between force, mass, and acceleration using F=ma
USEFUL FOR

Students studying physics, educators teaching kinematics, and anyone interested in aerospace dynamics or rocket science.

FancyNut
Messages
113
Reaction score
0
A 1000kg weather rocket is launched straight up. The rocket motor provides a constant acceleration for 16 s, then the motor stops. The rocket altitude 20 s after launch is 5100 m. You can ignore any effects of air resistance.


What's the rocket's acceleration during the first 16 seconds?



I posted this in another thread but I guess nobody is looking at it... if posting this is against the rules then I guess ban me/lock thread but PLEASE how do I even start? Initial velocity is zero, I know time, but with no displacement (the 5100 is for the very end after the motor stopped) or final velocity (when the motor stops) I just can't get it. I used all 3 equations and the best I can do is get acceleration in terms of final postion (the one where the motor stops).

:cry:
 
Physics news on Phys.org
The 1000 kgs seems to suggest some force analysis.
 
It's from a chapter before forces are introduced so it shouldn't have anything with the problem...
 
FancyNut said:
A 1000kg weather rocket is launched straight up. The rocket motor provides a constant acceleration for 16 s, then the motor stops. The rocket altitude 20 s after launch is 5100 m. You can ignore any effects of air resistance.


What's the rocket's acceleration during the first 16 seconds?



Initial velocity is zero, I know time, but with no displacement (the 5100 is for the very end after the motor stopped) or final velocity (when the motor stops) I just can't get it. I used all 3 equations and the best I can do is get acceleration in terms of final postion (the one where the motor stops).

:cry:

Try to think logically instead of plugging in data into formulas... What happened to the rocket? It rose with constant acceleration for t1=16 s, after that the motor stopped but gravity still acted on it, so it rose with deceleration of g for t2=4 s.
You do not know the acceleration during the first t1 time, so it is "a".
The velocity rose to v1=a*t1, and the displacement is h1=a/2*t1^2.
Now the second period comes, for t2=4 seconds, with acceleration -g and "starting" velocity vo=v1. The displacement is h2=vo*t2 -g/2 *t2^2= a*t1*t2-g/2*t2^2.
The sum of both displacements is h = h1+h2 =5100 m. You have one equation with one unknown, it is the acceleration, a.

ehild
 
ehild said:
Try to think logically instead of plugging in data into formulas... What happened to the rocket? It rose with constant acceleration for t1=16 s, after that the motor stopped but gravity still acted on it, so it rose with deceleration of g for t2=4 s.
You do not know the acceleration during the first t1 time, so it is "a".
The velocity rose to v1=a*t1, and the displacement is h1=a/2*t1^2.
Now the second period comes, for t2=4 seconds, with acceleration -g and "starting" velocity vo=v1. The displacement is h2=vo*t2 -g/2 *t2^2= a*t1*t2-g/2*t2^2.
The sum of both displacements is h = h1+h2 =5100 m. You have one equation with one unknown, it is the acceleration, a.

ehild


*gives ehild a box of cookies*

:D :D :D

I guess next time I shouldn't be so lazy and just expect to plug in numbers in a given formula... :redface:
 
FancyNut said:
*gives ehild a box of cookies*

:D :D :D

I guess next time I shouldn't be so lazy and just expect to plug in numbers in a given formula... :redface:


Great! and thanks for the virtual cookies. They were yummy :smile:

ehild
 

Similar threads

Rocket + Connected Body Dynamics problem
  • · Replies 47 ·
2
Replies
47
Views
3K
What is the Correct Acceleration of the Rocket During Its Launch Phase?
  • · Replies 3 ·
Replies
3
Views
2K
Solving a 1000kg Weather Rocket Homework Problem
  • · Replies 9 ·
Replies
9
Views
3K
How to calculate velocity of infinite-stage rocket?
  • · Replies 2 ·
Replies
2
Views
1K
Model Rocket Launch: Maximum Height, Time, and Duration Calculations
  • · Replies 1 ·
Replies
1
Views
2K
How Does the Relativistic Rocket Equation Describe Velocity?
  • · Replies 2 ·
Replies
2
Views
2K
Rocket Acceleration and Altitude Calculation
  • · Replies 5 ·
Replies
5
Views
3K
Kinematics and finding acceleration
  • · Replies 5 ·
Replies
5
Views
2K
Rocket Acceleration: Calculating Speed and Altitude
  • · Replies 3 ·
Replies
3
Views
4K
Kinematics of Constant acceleration word problem
  • · Replies 3 ·
Replies
3
Views
2K