Diagramas de energía potencial

Free fall

../../_images/diagram_mgh.png

Fig. 114 In this diagram, the vertical axis contains the energy while the horizontal axis represents the height of a body. The total energy of the system, which is constant, is represented as a horizontal, green line. The potential energy of the object as it rises can be seen as a diagonal blue line, the height of which indicates the potential energy at a particular position.

(233)\[E_m=\frac{1}{2}mv^2+mgh\]

Spring

../../_images/diagram_harmonic.png

Fig. 115 In this diagram, the vertical axis contains the energy while the horizontal axis represents the compression/expansion of a spring. The total energy of the system, which is constant, is represented as a horizontal, green line. The potential energy stored in the spring is represented by a blue parabola.

(234)\[E_m=\frac{1}{2}mv^2+\frac{1}{2}Kx^2\]

Magnitudes escalares

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

If the equation is by itself,

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

I am going to add a figure

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

Fig. 116 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

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

Some text needs to go between sidebars

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

And at the end

  • This is the text of another problem

Bibliografía