If we draw the Free Body Diagram for this situation (figure attached), taking into account only the gravity force in this case, we will see the weight [tex]W[/tex] of the block, which is directly proportional to the gravity acceleration [tex]g[/tex]:
[tex]W=m.g[/tex]
This force is directed vertically at an angle [tex]\theta[/tex] below the inclined plane, this means it has an X-component and a Y-component:
[tex]W=W_{X}+W_{Y}[/tex]
[tex]W_{X}=m.g.cos(\theta)[/tex]
[tex]W_{Y}=m.g.sin(\theta)[/tex]
Therefore the correct option is c
Explanation:
When a box is placed in the friction less plane inclined at an angle θ. The forces acting on the box are
1. Weight of the box, W = m g
2. Force of friction, f
3. Normal force, N
When we resolve these forces in horizontal and vertical components, we get :
[tex]N=mg\ cos\theta[/tex]
[tex]f=mg\ sin\theta[/tex]
We know that the direction of gravitational force is always in downward direction. So, the gravitational force on the box is directed vertically. Hence, the correct option is (a).
