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Why will a rope break if the tension is greater then the break strength?
A rope will break if the tension exceeds its break strength because the internal forces holding the rope's fibers together are overcome, causing the fibers to separate and break. When the force applied to the rope is higher than its break strength, the rope is unable to withstand the load and snaps.
A certain rope will break when a force of more than 800 N is exerted on it two men pull on the rope in oppositedirection with a force of 500 N eachWill the rope break?
The breaking strength of the rope has to be stated in terms of the "tension" in the rope, and that has to be the 800N quoted here. If the ends of the rope are pulled in oppposite directions with a force of 500N on each end, then the tension in the rope at any point is 1000N, and yes, it will break.
What is a pulling force in a rope called?
A pulling force in a rope is called tension. Tension is the force exerted by a rope when it is pulled taut by two opposing forces.
What is the tension of a rope that has a lantern that weighs 50 newtons on it use the parallelagram rule to defend your answer?
The tension in the rope will be equal to the weight of the lantern, which is 50 newtons. According to the parallelogram rule, the tension in a rope is equal and opposite to the force acting on the other end of the rope, which in this case is the weight of the lantern.
What is the tension in the rope at that point?
The tension in the rope at that point is the force pulling in opposite directions at the point where the rope is being held or attached.
Why will a rope break if the tension is greater then the break strength?
A rope will break if the tension exceeds its break strength because the internal forces holding the rope's fibers together are overcome, causing the fibers to separate and break. When the force applied to the rope is higher than its break strength, the rope is unable to withstand the load and snaps.
A certain rope will break when a force of more than 800 N is exerted on it two men pull on the rope in oppositedirection with a force of 500 N eachWill the rope break?
The breaking strength of the rope has to be stated in terms of the "tension" in the rope, and that has to be the 800N quoted here. If the ends of the rope are pulled in oppposite directions with a force of 500N on each end, then the tension in the rope at any point is 1000N, and yes, it will break.
What is a pulling force in a rope called?
A pulling force in a rope is called tension. Tension is the force exerted by a rope when it is pulled taut by two opposing forces.
What is the tension of a rope that has a lantern that weighs 50 newtons on it use the parallelagram rule to defend your answer?
The tension in the rope will be equal to the weight of the lantern, which is 50 newtons. According to the parallelogram rule, the tension in a rope is equal and opposite to the force acting on the other end of the rope, which in this case is the weight of the lantern.
Why is tensile strength stronger than compressive strength?
Neither tensile strength nor compressive strength is inherently "stronger." Some materials are stronger in tension; other materials are stronger in compression. For example, rope is much stronger in tension than in compression, but concrete is much stronger in compression than in tension.
What is the tension in the rope at that point?
The tension in the rope at that point is the force pulling in opposite directions at the point where the rope is being held or attached.
What is the reaction force to you pulling on a rope?
The reaction force to you pulling on a rope is the tension force exerted by the rope in the opposite direction. This tension force is equal in magnitude and opposite in direction to the force you apply to the rope.
What will be the tension in a rope that is pulled from its end by two opposite forces 100Newton each?
In that case (ignoring the weight of the rope, for simplicity), the tension at any point of the rope will also be 100 N.
What is the direction of tension in a rope?
The direction of tension in a rope is away from the object to which the force is being applied. It is a pulling force that stretches the rope and opposes any external forces trying to compress or shorten it.
What will be the tension in a rope that is pulled from its ends by two opposite forces 100 n each?
The tension in the rope will be 100 N, as both forces are pulling on the rope with equal magnitude but in opposite directions. This results in no net force being applied to the rope, maintaining the tension at 100 N.
What happens when you tie buckets of water to a rope and spin them?
the buckets will rotate. it is also likely that the rope will break, the buckets will fall, and the water will spill, mainly depending on the strength of the rope and size of the water-filled buckets
What will be the tension in a rope that is pulled from its ends by to opposite forces100 N each?
Assuming you meant two forces, the tension will be 200N.
