User:JaviPrieto/sandbox

Here is the page about /Magnetism

Here is the page about /Limits

Here is the page about /Derivatives

Here is the page about /Integrals

Those are some tests I was doing


 * $$ \mathbf {v}= \mathbf {v_0} + \mathbf {a} t $$


 * $$ \mathbf {s}= \mathbf {v_0} t + {{1} \over {2}} \mathbf {a}t^2 = {{(\mathbf{u}+\mathbf{v})t} \over {2}} $$

where


 * $$\mathbf{s}$$ = displacement


 * $$\mathbf{v_0}$$ = initial velocity


 * $$\mathbf{v}$$ = final velocity


 * $$\mathbf{a}$$ = uniform acceleration


 * $$t$$ = time.

Ley de Ampère

\oint_{(x,y)\in C} x^3\, dx + 4y^2\, dy