say its left of the fulcrum, then its (9*2)18 n-m anti clockwise torque, to balance this ,to the right of the fulcrum, force * distance needs to be 18, any combination will do, 2*9,3*6,6*3 etc , this is clockwise torque
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Force = mass x acceleration Force = Akg x 2m/s^2 Unit for force here is in Newtons (N)
2 meters is 6 feet and 6.74 inches.
Answer: 2m x 2m (4 square meters) = 43.0556 square feet.
Work-Energy Theorem.When work is done on a body its kinetic energy changes.Let a constant force F acting on a body of mass m changes its velocity from u to v in a distance d, then work done = F * dchange in kinetic energy = 1/2mv2 - 1/2mu2 = 1/2m(v2 - u2) =1/2m * 2ad =ma * d =F *dTherefore work done = change in kinetic energy, that is F *d = 1/2mv2 - 1/2mu2.
it becomes 2m
A 9-N force cannot be applied 2 m from the fulcrum lift the weight because it wouldn't balance
Workdone =force * distance 25N * 2m = 50Nm OR 50joules
10p
its weight is 2mg
Weight of the elevator = 1000kg x -9.8m/s2 = -9800N Upward force acting on the elevator = 1000kg x 2m/s2 = 2000N Net force = upward force - weight of elevator = 2000N - (-9800N) = 11800N
The mass is 5kg
2m/s^2
I assume you mean a newton meter(N.m), which is the base SI unit of torque, used to describe the rotational moment imparted on a object. It is primarily associated with levers, with the base unit describing a force of 1N being imparted on a lever 1m long which produces a moment of 1N.m about the fulcrum(point about which the lever rotates). But if the lever is 2m long only a force of 0.5N is required to achieve 1N.m.
Work = (force) x (distance) = (20n) x (2m) = 40 newton-meters = 40 joules.
Pressure equals Force/Area 1 Pascal = 1 N/m^2 Unit for area is 'squared meters' so I will assume that you meant 2m2 instead of just 2m. So plugging it into the formula we get: 10N/2m2 = 5 Pa
The prefix of 2M indicates that you have a Browning Auto-5 standard weight shotgun that was produced in the year 1962.
What is the amount of water can fill in this tank 2m x 2m 2m.