Weight of the chain and tension in the string
gravity and moons forces pulls it up
Surface Tension
equal to zero because two opposite forces will cancel each other
Well, it would depend on the part of the bike you are talking about because there are different forces acting. For example. Spokes: There is tension (tensile strength) Seat post: Has compression (compressive strength) handlebar: torsion (torsion strength)
At rest, tension in the string and weight of the bob are the two forces both equal and opposite. During its displaced position, the weight of the bod, tension of the string and restoring force all the three would act on it
gravity and moons forces pulls it up
Surface Tension
Surface Tension
When a pen is hanging, two forces act on it - the upthrust and the force of tension in the string.
The Forces acting on the pen are first the downward force called gravitational force and the upward force is the tension force.
Tension forces are two forces acting on one object, moving in opposite directions (away from one another) to stretch the object. Compression forces are two forces acting on one object, moving in opposite directions (towards one another) to compress or deform the object.
tension force , contact force, applied force
Yes hanging load. Its weight ie force due to gravity is acting downward. And the tension the rope is acting upward. Both the forces are acting on the load but as they are equal in magnitude and opposite in direction the resultant becomes zero.
Gravity and air resistance are key forces acting on most catapults. Depending on the type of catapult, there will also be either tension or torsion. Both are forms of elasticity. Catapults with torsion acting on them are usually ballistas while catapults with tension acting on them are simply called catapults.
Normal, Friction, Tension, and Elastic Forces.
equal to zero because two opposite forces will cancel each other
Well, it would depend on the part of the bike you are talking about because there are different forces acting. For example. Spokes: There is tension (tensile strength) Seat post: Has compression (compressive strength) handlebar: torsion (torsion strength)