Momento lineal

(134)\[\vec{p}=m\vec{v}\]
../../_images/largerforce.png

Fig. 60 Which objects needs a stronger force to be stopped, the one on the left or the one on the right?

Linear momentum conservation

(135)\[\vec{F}=\frac{d\vec{p}}{dt}=\frac{dm}{dt}\vec{v}+m\frac{d\vec{v}}{dt}=\frac{dm}{dt}\vec{v}+m\vec{a}\]
(136)\[\vec{F}=\frac{d\vec{p}}{dt}=\vec{0} \Rightarrow \vec{p}=\text{constant}\]
2_mecanica/dinamica/../../img/dinamica/saturn.png

Fig. 61 The fuel mass in a space rocket (a Saturn V in this case) makes up for much of its total mass. As it ascends fuel is used up and the rocket mass quickly changes.

Magnitudes escalares

I am writing an equation inline \(x=-i\hbar\psi=\hat{h}\psi\).

If the equation is by itself,

(137)\[-i\hbar\psi=\hat{h}\psi\]

I am going to add a figure

2_mecanica/dinamica/../img/logo/logo_fisica.png

Fig. 62 Here is my figure caption!

:::{admonition,warning} This is also Markdown This text is standard Markdown :::

:::{admonition,note} This is also Markdown This text is standard Markdown :::

:::{admonition,tip} This is also Markdown This text is standard Markdown :::

Magnitudes vectoriales

There are many ways to write content in Jupyter Book. This short section covers a few tips for how to do so.

I am going to cite a reference [HdHPK14]

Now I am going to cite section escalares Sec. Magnitudes escalares

The Schrödinger equation is Eq. (195)

I am citing the figure: Fig. 102

Unidades

Problemas y ejemplos resueltos

  • This is the text of a problem

I can start solving like this

(138)\[x=-2\pi\]

Some text needs to go between sidebars

(139)\[y=-log(e)\]

And at the end

  • This is the text of another problem

Bibliografía