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If the mass is already moving, then no force is required to move it any desired distance,
and if it's not moving, then any force will start it moving. We'll say that there's no definite
relationship between force, mass, and distance.
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∙ 13y ago
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How do you find distance given mass and work?
You can't. Work is (force) times (distance), so you have to know something about the force. Just knowing the mass doesn't tell you anything about the force ... unless there's actually something else about the mass that you've overlooked.
If force is work divided by distance then distance is force divided by work?
I usually start with the definition of work: Work = force * distance so... Force = work / distance Distance = work / force So, no. You had it backwards.
What work would be done moving an item with a mass of 6.522 Kg a distance of 1.812 m?
It can't be calculated with the information given.Work is defined as (force) multiplied by (distance).The mass can be moved fast, by pushing it hard, or slowly through the same distance,by pushing it with less force. The work is different in each case, since it depends on theforce and the distance.Notice that the work doesn't depend on the mass, only on the force used to move it.
What two fatcors are used to calculate work?
distance and force work=distance/ force
What is force x distance?
In physics, work = force x distance.
How do you find distance given mass and work?
You can't. Work is (force) times (distance), so you have to know something about the force. Just knowing the mass doesn't tell you anything about the force ... unless there's actually something else about the mass that you've overlooked.
How are mass force acceleration force and work related?
Mass is the amount of matter in an object, force causes an object to accelerate, acceleration is the rate of change of an object's velocity, and work is done when a force acts on an object over a distance. They are related in the context of Newton's laws of motion, where force is defined as mass times acceleration and work is defined as force times distance.
What is the formula for input force?
The formula for input force is force = work / distance. This formula represents the amount of force required to move an object a certain distance based on the work done.
A crane does 5000J of work to lift a box a vertical distance of 16.0 m Calculate the mass of the box?
Force on the box = (weight) = (mass) x (gravity)Work = (force) x (distance) = (mass x gravity) x (distance)Mass = (work) / (gravity x distance)= (5000) / (9.8 x 16) = 31.888 kg (rounded)
What does force divided by distance equal?
Work is force times distance. A Force divided by Distance: looking at the units, Force = newtons = kg m / s^2 = mass x length / time^2 so ML/T^2 Distance = m = length so L Force/Distance = (ML/T^2)/L = ML/LT^2 = M/T^2 So the units of a force divided by distance are mass/ time^2 This would be the rate of change of mass change with respect to time.
If force is work divided by distance then distance is force divided by work?
I usually start with the definition of work: Work = force * distance so... Force = work / distance Distance = work / force So, no. You had it backwards.
Force equals mass times what?
Acceleration. This is described by Newton's second law of motion, which states that the force acting on an object is equal to the mass of the object multiplied by its acceleration. This relationship is represented by the equation F = ma.
What is the formula for determining force and work and power?
Force is defined as the product of mass and acceleration (F=ma). Work is calculated as force multiplied by distance traveled in the direction of the force (W=Fd). Power is the rate at which work is done, calculated as the work done divided by the time taken to do it (P=W/t).
How is work different from force?
Work is the product of a force acting over a distance, calculated as force times distance. Force is a push or pull that can cause an object to accelerate or deform. Work involves the transfer of energy, whereas force is simply a push or pull.
Perpendicular force on 200n mass for 6m equals work?
To calculate the work done on the 200N mass when a perpendicular force is applied over 6m, you would multiply the force applied by the distance moved in the direction of the force. In this case, the work done would be 200N * 6m = 1200 joules.
How do you determine how much work is done?
First you have to find the force F=(mass/weight of object)*(9.8) Once you find force Work=(Force)*(Distance) Your answer will be in joules
How much work is done if a 10kg mass is moved 5 meters?
The work done is equal to the force applied multiplied by the distance moved in the direction of the force. Given only the mass (10kg) and distance (5 meters), we would need to know the force applied to calculate the work done.
