the atmosphere
if by "surface gravity", you mean the potential energy forced upon us by gravitational pull, then it's joules.
If you mean the actual force of the gravity, it's newtons. (also known as our weight.)
Same units as are used to describe the surface gravity of the Earth, the moon, or any other body: Units of acceleration, such as meter/sec2 or feet/sec2 .
Local gravity can't be described in units of "kg".The acceleration of gravity at the surface of Mercury is3.697 meters (12.13 feet) per second2 .
Weight = mass x gravity. Weight (in newton) = mass (in kilogram) x gravity (in meter/second2, equivalent to newton/kilogram). Note: close to Earth's surface, gravity is about 9.8 meter/second2.
Its surface is visible because of how AU's (Astronomical Units) it is away from the Earth.
AnswerNear the surface of the earth where the acceleration of gravity, g. can be taken as9.8 m/s2, Newton's Second Law states the force on an object whose mass, m, is given in kilograms isF=mg; units are kgXm/s2 which is equivalent to Newtonsbasically multiply kg by 9.8 (9.8 being the value of gravity)
Same units as are used to describe the surface gravity of the Earth, the moon, or any other body: Units of acceleration, such as meter/sec2 or feet/sec2 .
Same units as are used to describe the surface gravity of the Earth, the moon, or any other body: Units of acceleration, such as meter/sec2 or feet/sec2 . Jun 5, 2008 - The gravity on Mars is much lower than it is here on Earth, 62% lower to be more precise. ... A person weighing 100 kg here would tip the scales at 38 kg .
-- The acceleration of gravity has units of [ meters/second2 ] .On or near the Earth's surface, it's about 9.8 of them.-- The force of gravity has units of [ Newtons ]. On or near theEarth's surface, it's about 9.8 of them per kilogram of mass.
The acceleration due to gravity at the surface of Mars is 3.722 m/s2 .That's about 37.95% of its value on Earth.
Mercury's surface gravity is about 3.7 m/s^2, which is approximately 38% of Earth's surface gravity. This means that objects on Mercury weigh less than they do on Earth due to the lower gravitational pull.
The force of gravity is a force and can be described in terms of any of the usual units of force.However, since the force of gravity on an object depends on the object's mass, we need a wayto describe the gravitational 'field' without knowing the mass of each object. So we describethe gravity, for example on the surface of the Earth, in terms of the acceleration of gravity there,because any object near the surface but falling the rest of the way will have the same accelerationregardless of its mass.
'Newton' is a unit of force. You can't measure gravity in units of force,because we have all noticed that fat people weigh more than thin oneseven when they are all on the same planet.-- The surface gravity on Earth is 9.81 newtons per kilogram of mass.-- The surface gravity on the moon is 1.62 newtons per kilogram of mass.(1 newton per kilogram of mass) is the same thing as (1 meter per second2).That's an acceleration, which is the kind of unit to describe gravity with.
The acceleration due to gravity is -9.8m/s2 in metric units or -32ft/s2 in English units.
Minute and second are not units of acceleration, so the Earth's gravitationalacceleration can't be expressed in those units.The acceleration of gravity on or near the Earth's surface is9.807 meters (32.18 feet) per second per second
weight = mass x gravity. On the surface of planet Earth, gravity is about 9.8 in SI units (9.8 meters/second2, equivalent to 9.8 newton/kilogram).
weight = mass x gravity. On the surface of planet Earth, gravity is about 9.8 in SI units (9.8 meters/second2, equivalent to 9.8 newton/kilogram).
You have to multiply that by the value for gravity. Near the surface of the Earth, this is about 9.8, in SI units. For using consistent units, you must first convert the mass to kilograms; the answer will be in newtons.