Vector tangente unitario para $$$\mathbf{\vec{r}\left(t\right)} = \left\langle \sin^{3}{\left(t \right)}, \cos^{3}{\left(t \right)}, \sin^{2}{\left(t \right)}\right\rangle$$$

Encuentre el vector tangente unitario de $$$\mathbf{\vec{r}\left(t\right)} = \left\langle \sin^{3}{\left(t \right)}, \cos^{3}{\left(t \right)}, \sin^{2}{\left(t \right)}\right\rangle$$$.

Para hallar el vector tangente unitario, debemos calcular la derivada de $$$\mathbf{\vec{r}\left(t\right)}$$$ (el vector tangente) y luego normalizarla (encontrar el vector unitario).

$$$\mathbf{\vec{r}^{\prime}\left(t\right)} = \left\langle 3 \sin^{2}{\left(t \right)} \cos{\left(t \right)}, - 3 \sin{\left(t \right)} \cos^{2}{\left(t \right)}, \sin{\left(2 t \right)}\right\rangle$$$ (para los pasos, véase calculadora de derivadas).

Halla el vector unitario: $$$\mathbf{\vec{T}\left(t\right)} = \left\langle \frac{6 \sqrt{26} \sin^{2}{\left(t \right)} \cos{\left(t \right)}}{13 \sqrt{1 - \cos{\left(4 t \right)}}}, - \frac{6 \sqrt{26} \sin{\left(t \right)} \cos^{2}{\left(t \right)}}{13 \sqrt{1 - \cos{\left(4 t \right)}}}, \frac{2 \sqrt{26} \sin{\left(2 t \right)}}{13 \sqrt{1 - \cos{\left(4 t \right)}}}\right\rangle$$$ (para los pasos, consulta calculadora de vector unitario).

El vector tangente unitario es $$$\mathbf{\vec{T}\left(t\right)} = \left\langle \frac{6 \sqrt{26} \sin^{2}{\left(t \right)} \cos{\left(t \right)}}{13 \sqrt{1 - \cos{\left(4 t \right)}}}, - \frac{6 \sqrt{26} \sin{\left(t \right)} \cos^{2}{\left(t \right)}}{13 \sqrt{1 - \cos{\left(4 t \right)}}}, \frac{2 \sqrt{26} \sin{\left(2 t \right)}}{13 \sqrt{1 - \cos{\left(4 t \right)}}}\right\rangle.$$$A