d=rt distance= rate[times] distance= rate * times
equals work
Somewhere on the line, at a distance that is A times the unit distance from the origin.
Speed is distance divided by time, but distance times time is not a recognizable quantity.
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They are the same- weight x distance equals weight times distance.
If the distance from the handle to the pivot (fulcrum) is n times the distance from the load to the pivot, then the force required to move the load will be the weight of the load divided by n,
d1 times w1 = d2 times w2 (d- distance of the person from seesaw)/ (w = weight of person)
According to one website I visited, the formula is:PE (subscript, gravitational) = weight x height = mphThe website where I found this has calculator tools and the formulas.
35 Joules is 35 newton-meters. The nergy is weight times distance = weight x .5 meters = 35 so weight is 35/.5 = 70NForce = weight =mass x acceleration ; mass =weight/gravity accel = 70/9.814 = 7.13 kg
Force times distance equals work.
Force times Distance equals Work
Mechanical energy and work are the same thing. Work is the force times the distance moved in the direction of the force. So lifting a 1 kg mass by 1 metre represents an amount of work equal to the weight times the distance: 9.806 Newtons times 1 metre equals 9.806 Joules.
No meaningful comparison is possible without specifying that the distance from both bodies will be the same at the moment of measurement. If you measured the acceleration due to gravity (or your weight) some distance from the sun, and then measured the acceleration due to gravity (or your weight) at the same distance from the Earth, you would find that the measurement in the vicinity of the sun is about 332,982 times the corresponding measurement at the Earth. It doesn't matter what the distance is, as long as both are the same.
d=rt distance= rate[times] distance= rate * times
Force times distance is called "Work" for the purposes of physics.
weight = gravity times massand weight = density times volume