A force of 4N is inclined at an angle of `60^(@)` from the vertical. Find out its components along horizontal and vertical directions.

A force is inclined at an angle of 60^(@) from the horizontal. If the horizontal component of the force is 4N,calculate the vertical component.

A force is inclined at an angle of 60^(@) from the horizontal. If the horizontal component of the force is 40N,calculate the vertical component.

A force is inclined at an angle of 60^(@) from the horizontal. If the horizontal component of the force is 40N. Calculate the vertical component.

A force of 20 N is inclined to the x-axis at an angle of 60^(@) . Calculate its x and y components.

A force of 10.5 N acts on a particle along a direction making an angle of 37^0 with the vertical. Find the component of the force in the vertical direction.

[Find by vector method the horizontal force and the force inclined at an angle of 60^@ to the vertical whose resultant is a vertical force P.]

A child pulls a box with a force of 200 N at an angle of 60^(@) above the horizontal. Then the horizontal and vertical components of the force are-

A force is inclined at 60^(@) to the horizontal. If its rectangular component in the horizontal direction be 50N,find the magnitude of the force and its vertical component.

A force of 72 dyne is inclined to the horizontal at an angle of 60^(@) . Find the acceleration in a mass of 9 g, which moves in a horizontal direction.

A football is kicked at an angle of 30^(@) with the vertical, so if the horizontal component of its velocity is 20 ms^(-1) , determine its maximum height.