Re: Re: Latex Test
\[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2}\]
View ArticleRe: Re: Latex Test
\[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2} \] \[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2} \] \[f_k = f(x_k),\: x_k = x^*+kh,\:...
View ArticleRe: Re: Latex Test
\[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2} \]
View ArticleRe: Re: Latex Test
[latexpage] \[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2} \]
View ArticleRe: Re: Latex Test
\[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2} \]
View ArticleRe: Latex Test 2
\[f_k = f(x_k),\: x_k = x^*+kh,\: k=-\frac{N-1}{2},\dots,\frac{N-1}{2} \]
View ArticleEnergy and Spring Problem
The diagram below shoes a toy cart possessing 16 joules of kinetic energy traveling on a friction-less, horizontal surface toward a horizontal spring. If the cart comes to rest after compressing the...
View ArticleRe: Energy and Spring Problem
Ok I separated your other problem and put it in another thread because it should be one problem per thread. Can you please briefly explain what you tried doing and why that didnt work for both?
View ArticleMax Kinetic Energy in Spring
A 3.0 kg mass is attached to a spring having a spring constant of 30 newtons per meter. The mass is pulled 0.2 m from the spring's equilibrium position and released. What is the maximum kinetic energy...
View ArticleRe: Max Kinetic Energy in Spring
I think I know the answer now. When they ask for the max kinetic energy achieved by the spring system are they asking for the elastic potential energy?
View ArticleRe: Energy and Spring Problem
I didn't know that when they are asking for the kinetic energy in the spring system is it the same thing as asking for the elastic potential energy. For the first one I divided 16J by (1/2)(1m) and got...
View ArticleRe: Energy and Spring Problem
So we have to look at the spring-cart system. By the law of conservation of energy, we know that energy is neither created nor destroyed but is only transferred. So the kinetic energy of the cart gets...
View ArticleRe: Max Kinetic Energy in Spring
kinetic energy and elastic potential energy are different things so it is not always the case that they are equal in value. But you should note that since total mechanical energy is conserved meaning...
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