Push on it with a force that is [ 1 newton greater and opposite to the direction of ]
the sum of any other forces on it.
"1 meter per second" is not a rate of acceleration. "1 meter per second per second" or "1 meter per second2" is. The force required to accelerate 1 kilogram of mass at that rate is called "1 Newton".
In the SI system (metric), length is a meter, mass is the kilogram, and time is the second.
You have an extra "per second" there. The proper measurement for force is: kg * m/s2, more commonly referred to as Newtons. This means that the force needed to get your one kilogram mass up to a speed of one meter per second within a single second (assuming no friction, initial momentum, or other external factors), would be exactly that: one Newton. * * * * * "per second per second" is an alternative form of "/s2" so there was no extra "per second".
0
(kilograms) x (meters per second)That's a (mass) multiplied by a (speed), which is a unit of [momentum] ... kilogram-meter per second.
One newton equals the force required to accelerate 1 kilogram of mass at 1 meter per second per second.
"1 meter per second" is not a rate of acceleration. "1 meter per second per second" or "1 meter per second2" is. The force required to accelerate 1 kilogram of mass at that rate is called "1 Newton".
A kilogram is a unit of measurement for WEIGHT. A newton (in the meter-kilogram-second system) is the unit of FORCE required to accelerate a mass of one kilogram one meter per second per second, equal to 100,000 dynes.
The international (SI) unit is the newton. It is defined by Newton's Second Law: it is the force required to accelerate a mass of one kilogram, at a rate of 1 meter/second/second. To get an idea of its magnitude: at normal Earth gravity, a mass of one kilogram has a weight of about 9.8 newton. (A weight is a force.)
Force = mass x acceleration, so F = 1 kg x 1 m s^2 = 1 N
These are all easy to find in your book: Length . . . . . . . Meter Mass . . . . . . . . . Kilogram Volume . . . . . . . Cubic Meter (* Liter is 1/1000th m3, or one dm3) Density . . . . . . . Kilogram per cubic meter Time .. . . . . . . . . Second Temperature . . . Kelvin or Celsius degree (same size)
1 N = 1(kg X m)/s^2 1 Newton = 1 kilogram times meter per second squared One newton is the force required to accelerate a mass of one kilogram at a rate of one meter per second squared
One Newton is the force needed to accelerate one (1) kilogram of mass at the rate of one (1) meter per second squared.
The Newton a measure of force. it is equal to the amount of net force required to accelerate a mass of one kilogram at a rate of one meter per second squared.
Length . . . meter Mass . . . kilogram Time . . . second Volume . . . cubic meter
Length. Meter Mass. Kilogram Time. Second
A kilogram cannot be compared to a meter. The kilogram measures mass and the meter measures length.