No, action and reaction forces always act in opposite directions. This is described by Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction.
The magnitude of a force affects the internal stresses in a structure, which can lead to deformation or failure if the force is too large for the structure to withstand. The direction of a force determines how the structure will react and whether it will experience tension, compression, shear, or bending stresses. Understanding the magnitude and direction of forces is crucial in designing structures to ensure they can support loads safely and efficiently.
Because it you a slow reactionist, then it effects the time when you do react. For example, a car is coming at you and you react quickly. You reaction distance will be better that when you react a couple seconds later.
Because like a cannon when the cannon ball comes out the cannon goes forward that's reaction force. Normal force is where the force does not use a ton of force so you don't see it react.
A charged object will attract or repel an uncharged object through the electrostatic force. The direction of the attraction or repulsion depends on the types of charges involved (positive or negative) on the objects.
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The root word of "reaction" is "react," which comes from the Latin word "re-" meaning "back" and "actio" meaning "action."
Reflex action is the instant reaction of our body while hormonial action takes more time to react
That would be 'react' or 'reaction'.
Any action in resisting other action or force; counter tendency; movement in a contrary direction; reverse action., The mutual or reciprocal action of chemical agents upon each other, or the action upon such chemical agents of some form of energy, as heat, light, or electricity, resulting in a chemical change in one or more of these agents, with the production of new compounds or the manifestation of distinctive characters. See Blowpipe reaction, Flame reaction, under Blowpipe, and Flame., An action induced by vital resistance to some other action; depression or exhaustion of vital force consequent on overexertion or overstimulation; heightened activity and overaction succeeding depression or shock., The force which a body subjected to the action of a force from another body exerts upon the latter body in the opposite direction., Backward tendency or movement after revolution, reform, or great progress in any direction.
Tough. An action force is normally the aggressor, acting first, with a clear owner (for example, a human, an animal, an engine, etc). The reaction force is normally passive (only acts when being forced to) and hidden (invisible), with no clear ownership. The reaction force can be created artificially to explain the situation. An example of a reaction force: an apple is sitting still on a table. We know the apple will fall if the table is not there. The action force will be the gravitational force. We can explain why the apple does not fall to the floor by 'assigning' an invisible force by the table that is equal and opposite to the gravitational force. Otherwise, Newton's 2nd and 3rd laws of motion would have been violated.
singular reaction abilities
No, lead will not react with aluminum under normal conditions. However, if there is a strong external force or a catalyst present, it may lead to a reaction.
Reaction is usually due to the flushing action of either the residual insecticide.
One of Newton's Laws of Motion- for every action, there is an equal but opposite reaction. Rocket motors eject gasses from burning rocket fuel with great force. Their action (going to the rear) causes the rocket to react- being pushed forward.
The magnitude of a force affects the internal stresses in a structure, which can lead to deformation or failure if the force is too large for the structure to withstand. The direction of a force determines how the structure will react and whether it will experience tension, compression, shear, or bending stresses. Understanding the magnitude and direction of forces is crucial in designing structures to ensure they can support loads safely and efficiently.
Lead will not react with magnesium sulfate because lead is less reactive than magnesium. Magnesium will displace lead in a single displacement reaction, but in the case of magnesium sulfate, there is no driving force for the reaction to occur.
The reaction is called a neutralization reaction, where an acid and a base react to form salt and water.