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What would happen if two people were pulling against each other with forces of 500 newtons and 600 newtons?
The person pulling with 600 newtons of force would overpower the person pulling with 500 newtons of force. The resulting net force would be 100 newtons in the direction of the person with the higher force.
What is the force pulling the 100 gram mass down?
The force pulling the 100 gram mass down is its weight, which is equal to the mass times the acceleration due to gravity. In this case, the force is 0.98 Newtons (0.1 kg * 9.8 m/s^2).
How much force is required to lift 100 pounds?
To lift 100 pounds against gravity, you would need to apply a force of 100 pounds. This accounts for overcoming the force of gravity pulling the object downward. If the object is being lifted vertically at a constant speed, the force required would be equal to the weight of the object.
What is the average pulling force of a human?
The average pulling force of a human can vary depending on factors such as age, gender, and physical fitness. However, studies have shown that the average maximum pulling force for an adult human is around 90 pounds (40.8 kg) for men and 70 pounds (31.8 kg) for women. This force can be generated through muscles such as the biceps, triceps, and back muscles working together to exert force in a pulling motion.
How much force must be used to pull down 100 lbs using a rope?
To calculate the force needed to pull down 100 lbs using a rope, you would need to know the angle at which the force is being applied and any other factors that may affect the force required. In a simplistic scenario with no angle or other factors, you would need to exert at least 100 lbs of force to counteract the weight of the object being pulled down.
What is the net force of 100n force and 80n force?
You will have to learn a new terminology here: net force. Net force is the sum of all forces acting on an object. For example, in a tag of war, when one team is pulling the tag with a force of 100 N and the other with 80 N, the net force would be 20 N at the direction of the first team (100 N - 80 N = 20 N).
What would happen if two people were pulling against each other with forces of 500 newtons and 600 newtons?
The person pulling with 600 newtons of force would overpower the person pulling with 500 newtons of force. The resulting net force would be 100 newtons in the direction of the person with the higher force.
What is the force pulling the 100 gram mass down?
The force pulling the 100 gram mass down is its weight, which is equal to the mass times the acceleration due to gravity. In this case, the force is 0.98 Newtons (0.1 kg * 9.8 m/s^2).
What tensional force?
it's when the force grabs on to each other in opposite side,Answer 2its the same thing as tension. like if i was using a force of 100 N to pull a string, id say, theres 100 N of tension force (or tension) in the string. get it?Tension forces stretch a material by pulling its ends apart
2 horses pull against a rope in the opposite direction with forces of 100 newtons is an example of what?
If each horse is pulling with 100 newtons of force, then this is a balanced force system in a Static State.
How much force is required to lift 100 pounds?
To lift 100 pounds against gravity, you would need to apply a force of 100 pounds. This accounts for overcoming the force of gravity pulling the object downward. If the object is being lifted vertically at a constant speed, the force required would be equal to the weight of the object.
Is it possible for an object not to be in motion and still have forces acting on it?
Definitely. Think of a tug-of-war in progress. There are 75 guys pulling on one end, and 100 girls pulling on the other end, and there's almost enough force pulling in opposite directions to break the rope, but the forces in each direction are equal, and the middle of the rope isn't moving at all.
Is it possible for an object to be in motion and still have forces acting on it?
Definitely. Think of a tug-of-war in progress. There are 75 guys pulling on one end, and 100 girls pulling on the other end, and there's almost enough force pulling in opposite directions to break the rope, but the forces in each direction are equal, and the middle of the rope isn't moving at all.
A truck pull a trailer 100 m while exerting a force of 480 newtons what is the work done by the truck?
The work done by a truck pulling a trailer for a distance of 100 M while exerting a force of 480 newtons is 48000 newtons.
What is a force that exerts a pull from large objects onto small objects?
I have a feeling that you're looking for the answer 'gravity'. But the 'pull' between any two objects due to gravity is equal in both directions. Doesn't matter a bit if they're the same size or if one is a bazillion times bigger than the other one. If you weigh 100 pounds on Earth, that means there's a gravitational force of 100 pounds pulling you toward the center of the Earth, and guess what: There's a gravitational force of 100 pounds pulling the Earth toward the center of you ! If you weigh 100 pounds on Earth, then the Earth weighs 100 pounds on you. If 'gravity' isn't the answer you're looking for, then I'm sorry I took up your time.
A crate with a mass of 40 kg is pulled by a force horizontally with constant speed for 10 m The kinetic friction force is 10 N What is the work done by the force?
If the speed is constant, then the forces on the crate are balanced, i.e. they add up to zero.Since the kinetic friction force is 10N, then the puller must be pulling the crate with an equal force of 10N.If he continues pulling with the force of 10N through a distance of 10 m, then the work he does is(10 x 10) = 100 newton-meters or 100 joules.The mass of the crate is utterly irrelevant to the discussion.
What is the average pulling force of a human?
The average pulling force of a human can vary depending on factors such as age, gender, and physical fitness. However, studies have shown that the average maximum pulling force for an adult human is around 90 pounds (40.8 kg) for men and 70 pounds (31.8 kg) for women. This force can be generated through muscles such as the biceps, triceps, and back muscles working together to exert force in a pulling motion.
