.47 watt
meters, seconds, meters/second, liters, newtons
That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).
This is not a question. It is a statement with a question mark at the end of it, therefore it can never be answered.
.32kgm/s
Using p=mv. p: momentum (kg ms^-1) m: mass (kg) v: velocity (ms^1) p = (25)(4) = 100 kg ms^-1
the mass is an invariant: so 25kg mass would still be 25kg mass where ever it was. the force a 25kg mass exerts would change, as the force is a variant that would be altered by the lower gravitational strength of the moon.
gh
two watts a second
Power = Force x displacement/time = 500 x 1000 / 120 = 4166.67 W
meters, seconds, meters/second, liters, newtons
Grams are measures of mass, not weight. Mass is independent of gravity. 25kg would still be 25 kg on earth, on the moon, on Saturn or anywhere else you can think of.
The answer is 55.115 lbs (approx.). Kilogram is the SI unit of mass and pound is an imperial unit of mass. To convert from kg to pound, multiply the kg unit by 2.20462.
time . . . . seconds mass. . . . kilograms area . . . . square meters length . . . meters weight . . . newtons volume . . . cubic meters or liters
25kg
That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).
480 000 J
This is not a question. It is a statement with a question mark at the end of it, therefore it can never be answered.