Here $M$ is a smooth manifold and $V(M)$ is the space of vector fields on $M$, $V^*(M)$ is the space of covector fields on $M$ and $T_{(q,r)}(M)$ is the space of $(q,r)$ tensor fields on $M$. What does it mean the example in picture? Namely, what does it mean by impossible to comb a sphere? Could anyone please explain?
The visualization of the vector field being invoked here is that of attaching a strand of hair to each point of the manifold, and laying the hair flat in the direction of the vector field.
Any point where the vector field is zero is a point where you can't do that, since there isn't a direction for the hair to "point"; and furthermore all of the nearby hairs around it are all pointing in different directions.
Since "combing" a region of hair would cause all of the hairs to lay flat1, the fact any vector field must have a zero means it's impossible to comb an entire sphere covered in of hair.
1: And if we choose any metric on the region, such a combing would even define a vector field by choosing unit vectors in the direction of the hair