$$\alpha '\left( s\right) =\left( \dfrac{3}{5}\cos s,-\sin s,\dfrac{4}{5}\cos s\right) $$ olduğundan $\left\| \alpha ^{'}\left( s\right) \right\| =\sqrt{\left( \dfrac{3}{5}\cos s\right) ^{2}+\left( -\sin s\right) ^{2}+\left( \dfrac{4}{5}\cos s\right) ^{2}}=\sqrt{\dfrac{9}{25}\cos ^{2}s+\sin ^{2}s+\dfrac{16}{25}\cos ^{2}s}=1$ dir. $$\left\| \alpha '\left( s\right) \right\| =1$$ olduğundan $\alpha$ birim hızlı bir eğridir. $T$ vektör alanı, $T(s)=\alpha^{'}(s)$ eşitliği ile tanımlanmıştır. Buna göre $T\left( s\right) =\left( \dfrac{3}{5}\cos s,-\sin s,\dfrac{4}{5}\cos s\right) $ dir. Buradan $T^{'}\left( s\right) =\left( -\dfrac{3}{5}\sin s,-\cos s,-\dfrac{4}{5}\sin s\right) $ elde edilir. $$\kappa \left( s\right) =\left\| T^{'}\left( s\right) \right\| =\sqrt{\left( -\dfrac{3}{5}\sin s\right) ^{2}+\left( -\cos s\right) ^{2}+\left( -\dfrac{4}{5}\sin s\right) ^{2}}=1$$ bulunur.$N\left( s\right) =\dfrac{1}{\kappa\left( s\right) }T'\left( s\right) =\left( -\dfrac{3}{5}\sin s,-\cos s,-\dfrac{4}{5}\sin 5\right) $ olur.$$B\left( s\right) =T\left( s\right) \times N\left( s\right) =\begin{vmatrix}
i & j & \widehat{k} \\
\dfrac{3}{5}\cos s & -\sin s & \dfrac{4}{5}\cos s \\
-\dfrac{3}{5}\sin s & -\cos s & -\dfrac{4}{5}\sin s
\end{vmatrix}=\left( \dfrac{4}{5},0,-\dfrac{3}{5}\right)$$ dir.$B^{'}\left( s\right) =\left( 0,0,0\right)$ olduğundan $$\tau \left( s\right) =-\langle B'\left( s\right) ,N\left( s\right) \rangle =-\langle 0,N\left( s\right) \rangle =0$$ dir.