Ballistic Pendulum: Calculate Vf & Height

lilkrazyrae
Messages
64
Reaction score
0
a 4.00g bullet moving at 380m/s embeds itself in a wood block of mass 2996g suspended as a ballistic pendulum find: (a)the initial velocity of the block after the impact, and (b) how high the block rises.

I did it this way can someone tell me if i did it right
(a)m(1)v(1i) + m(2)v(2i) = (m(1) +m(2))v(f)
m(1)v(1i)/(m(1)+m(2))=v(f)
(4.00*380)/(4.00+2996)=.5067m/s

(b) U+K=U(2) +K(2)
1/2 mv^2 = mgh
v^2/2g=h
.507^2/(2*9.80)=.0131m

Any Help would be appreciated
 
Physics news on Phys.org
lilkrazyrae said:
a 4.00g bullet moving at 380m/s embeds itself in a wood block of mass 2996g suspended as a ballistic pendulum find: (a)the initial velocity of the block after the impact, and (b) how high the block rises.
I did it this way can someone tell me if i did it right
(a)m(1)v(1i) + m(2)v(2i) = (m(1) +m(2))v(f)
m(1)v(1i)/(m(1)+m(2))=v(f)
(4.00*380)/(4.00+2996)=.5067m/s
(b) U+K=U(2) +K(2)
1/2 mv^2 = mgh
v^2/2g=h
.507^2/(2*9.80)=.0131m
Any Help would be appreciated
Your method is correct. Your numbers look ok too.

AM
 
Thread 'Need help understanding this figure on energy levels'

Thread 'Need help understanding this figure on energy levels'

This figure is from "Introduction to Quantum Mechanics" by Griffiths (3rd edition). It is available to download. It is from page 142. I am hoping the usual people on this site will give me a hand understanding what is going on in the figure. After the equation (4.50) it says "It is customary to introduce the principal quantum number, ##n##, which simply orders the allowed energies, starting with 1 for the ground state. (see the figure)" I still don't understand the figure :( Here is...
View full post »
Thread 'Understanding how to "tack on" the time wiggle factor'

Thread 'Understanding how to "tack on" the time wiggle factor'

The last problem I posted on QM made it into advanced homework help, that is why I am putting it here. I am sorry for any hassle imposed on the moderators by myself. Part (a) is quite easy. We get $$\sigma_1 = 2\lambda, \mathbf{v}_1 = \begin{pmatrix} 0 \\ 0 \\ 1 \end{pmatrix} \sigma_2 = \lambda, \mathbf{v}_2 = \begin{pmatrix} 1/\sqrt{2} \\ 1/\sqrt{2} \\ 0 \end{pmatrix} \sigma_3 = -\lambda, \mathbf{v}_3 = \begin{pmatrix} 1/\sqrt{2} \\ -1/\sqrt{2} \\ 0 \end{pmatrix} $$ There are two ways...
View full post »

Similar threads

Lagrangian mechanics, system of a spring and a pendulum
Replies
21
Views
4K
How a Ballistic Pendulum works.
Replies
1
Views
2K
What is the equation to solve for muzzle speed in a ballistic pendulum problem?
Replies
4
Views
3K
Simulating a Rotary Inverted Pendulum in Python
Replies
15
Views
1K
Linear momentum problem (ballistic pendulum)
Replies
2
Views
4K
Spring Pendulum with Drag: Newtonian and Lagrangian Approaches
Replies
7
Views
5K
Ballistic Pendulum initial velocity of bullet
Replies
2
Views
3K
Pendulum in a freely moving box
Replies
12
Views
5K
Conservation of Energy Problem -- bullet fired into a ballistic pendulum
Replies
7
Views
6K
How to parametrize motion of a pendulum in terms of Cartesian coordinates?
Replies
1
Views
1K

Hot Threads

Recent Insights

Back
Top