We know gravity and the buoyancy of water act on a swimmer, as does the drag of the water and the thrustgenerated by the swimmers arms and legs.
The pair of forces is the following: You push the water back; the water pushes you forward.
the action is the swimmer moving his arms nad leges , the reaction is him moving forwards
There is a law of physics that states, "Every action has an equal and opposite reaction."
The swimmer moves water backwards and hence water moves him forward.
law of action and reaction
2nd law
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False. An object will go on forever if there were no forces to act upon it. In space, a rocket will go forever at the speed it projects. We only need the engines to steer an for lift off. On Earth, a toy car will go a short distance when pushed. Friction will go against it.
These forces may be either external or internal. As Surface forces act on the surface of the water body by direct contact.
The two forces are of the same magnitude, act in opposite directions, and act on different objects.
London dispersion forces
By the vector sum of the forces. When the forces act exactly in opposite directions, you subtract one force from the other. When they act at some other angle, the calculation is a bit more complicated.
Tension and compression are the two forces that act upon a bridge.
Forces that likely act upon a moving object include:frictiongravity
friction
dey dont
compression pushes it down
Some Forces do not involve physical contact between the bodies on which they act. -Jauan Williams 3182163642
Action and reaction
No.
An emergent theory is a concept that arises from interactions among simpler components within a system, producing new properties or behaviors that cannot be predicted from the individual components alone. It suggests that complex phenomena can emerge from the interactions of simpler elements, highlighting the importance of studying systems as a whole rather than just their individual parts.
Forces of gravity ( gravitational force) pulls the meteor to earth
Gravity and atmospheric pressure.
Gravity hold the moon in orbit