Deriving the Rate of Change of Angle in a Rocket Launch Using Differentiation

  • Thread starter Thread starter Bostonpancake0
  • Start date Start date
  • Tags Tags
    Differentiation
Bostonpancake0
Messages
42
Reaction score
0
The question is as follows:

A rocket was launched straight up, and its altitude is given by h = 10 t2 m after t
seconds. You are on the ground 300 m from the launch site watching the rocket going
up. The line of sight from you to the rocket makes an angle θ with the horizontal. By
how many radians per second is θ changing 10 seconds after the launch?


I guess my question is whether my understanding of the problem and working is correct. I'm not 100% confident on my process and my answer and am just wondering if I have missed anything important.

By working and answer is tagged below.
 

Attachments

  • pic physics.jpg
    pic physics.jpg
    13.8 KB · Views: 481
Physics news on Phys.org
Looks okay when my head is turned sideways. If you want to be picky, you could show working out for how you differentiated to get dh/dt. It's not necessary but the grader might deduct points off that, in which I had suffered first hand experience from that.
 
Ahhh yes thanks for that missed it, alright its just that 11degrees a second seems rather large? I tried it another way and got d(theta)/d(t)=60*t/t^4+900...then subbing t gives me d(theta)/d(t)=0.055046 degrees/sec? doesn't this seem like a more likely answer?
 
I think the left side of your page should be dθ/dh

When t = 5 secs, h = 10(5)^2 = 250m
When t = 10 secs, h = 1000m
When t = 15 secs, h = 2250m
When t = 20 secs, h = 4000m
 
Last edited:
If you post an image of your work, at least do us the courtesy of posting it right side up instead of rotated 90 deg.
 
Hi I think I am doing the same assignment as you. I got the same values that dh/dt= 20t, d(theta)/d(h)= 60t/t^4+900 and multiplying them gets d(theta)/d(t)= 1200/109. But I agree, I thought it was too high. But then i tried differentiating d(theta)/d(h) and then subing in h=10t^2 afterward and it got a much lower answer which i believe is correct. Because the origional way, we were differentiating dh/dt at the same time as d(theta)/d(h). DON'T FORGET TO CONVERT INTO RADIANS THOUGH! You didn't do this on the sheet. Good luck!
 
Last edited:

Thread 'Finding the nth roots of a complex number'

There are two things I don't understand about this problem. First, when finding the nth root of a number, there should in theory be n solutions. However, the formula produces n+1 roots. Here is how. The first root is simply ##\left(r\right)^{\left(\frac{1}{n}\right)}##. Then you multiply this first root by n additional expressions given by the formula, as you go through k=0,1,...n-1. So you end up with n+1 roots, which cannot be correct. Let me illustrate what I mean. For this...
View full post »

Similar threads

Angle of Change: Rocket Launch 10 Seconds Later
Replies
4
Views
2K
Rocket + Connected Body Dynamics problem
Replies
47
Views
3K
Related Rate Problem (Involving Trig.)
Replies
2
Views
2K
B Can Unlimited Energy Launch Objects into Orbit Using Accelerator Technology?
Replies
32
Views
5K
How do you solve the problem of a rocket with variable mass?
Replies
4
Views
3K
How Fast Is the Angle of Elevation Changing as the Rocket Ascends?
Replies
2
Views
11K
Model Rocket Launch: Maximum Height, Time, and Duration Calculations
Replies
1
Views
2K
Using differentiation to find a general expression
Replies
2
Views
2K
How to calculate velocity of infinite-stage rocket?
Replies
2
Views
1K
Simmons 7.10 & 7.11: Find Curves Intersecting at Angle pi/4
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top