you get torque. N/m
You usually do this to calculate a weight. In this case, multiply the number of kilograms by the force of gravity - in case of Earth, this is about 9.8 meters/second2.
Meters / second2, or the equivalent Newtons / kg.Meters / second2, or the equivalent Newtons / kg.Meters / second2, or the equivalent Newtons / kg.Meters / second2, or the equivalent Newtons / kg.
Multiply the force by the distance. The mass is irrelevant for this problem.
Multiply the mass by the gravitation. On Earth, gravitation is about 9.8 meters per second square, or the equivalent 9.8 newton per kilogram.
you get torque. N/m
Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.Convert this to kilograms, then multiply with the gravity (9.82 meters per square second). The result will be in Newtons.
To find joules, you have to multiply the force or newtons by distance in meters.
Multiply the mass (in kilograms) by the gravitation (9.8 meters per second square, near the Earth's surface), and you get the weight (in Newtons).
You usually do this to calculate a weight. In this case, multiply the number of kilograms by the force of gravity - in case of Earth, this is about 9.8 meters/second2.
You multiply the mass by the gravity. Normal Earth gravity is about 9.8 (in meters/second2, or the equivalent newton/kilogram).
The idea is to multiply the mass by the velocity.
Multiply the force by the distance. The mass is irrelevant for this problem.
Meters / second2, or the equivalent Newtons / kg.Meters / second2, or the equivalent Newtons / kg.Meters / second2, or the equivalent Newtons / kg.Meters / second2, or the equivalent Newtons / kg.
Multiply mass in kilograms by 9.81 to get weight in Newtons
Multiply the mass by the gravitation. On Earth, gravitation is about 9.8 meters per second square, or the equivalent 9.8 newton per kilogram.
For a constant force, work = force x distance. In other words, just multiply the two. The answer is in joules.