By saying that the acceleration is zero.
it was discovered many years ago but Newton was the first who described it in mathematical terms.
As defined by Isaac Newton, force equals mass times acceleration.
To say in simple language, Issac Newtons second law is F= Mawhere "F" is ForceM= Mass and "a" is accelerationThe sum of the forces on an object is equal to the total mass of that object multiplied by the acceleration of the object. In more technical terms, the acceleration of a body is directly proportional to, and in the same direction as, the net force acting on the body, and inversely proportional to its mass. Thus, F = ma, where Fis the net force acting on the object, mis the mass of the object and ais the acceleration of the object. Force and acceleration are both vectors (as denoted by the bold type). This means that they have both a magnitude (size) and a direction relative to some reference frame.
Gravity is described in terms of the acceleration of an object falling in it. The acceleration of gravity on Earth is 9.807 meters per second2. On the Moon, it's 1.623 meters per second2. Multiply an object's mass by the local acceleration of gravity, and you have the object's weight.
The acceleration due to gravity on the surface of Earth is about 9.8m/s2.That's the same for all objects and doesn't depend on the mass of the object.However, the force on an object depends on the mass of the object.That's why different people have different weights, and whymost people weigh less than most trucks.Expressed in terms of force, the Earth's surface gravity is about 9.8 newtons per kilogram.
Force= Mass x Acceleration
well i do believe the official equation for calculating the acceleration of an object is acceleration equals the net force (in newtons) divided by the mass (in kilograms). but i like to use the equation mass (in kilograms) = acceleration (in meters/seconds2) x the net force (in newtons). hope this helped :D
Also if you mean Newtons in terms of weight the formula is Newtons = Mass * Gravity
The gravitational potential energy is the product of (mass) x (acceleration due to gravity) x height). The first two terms ... (mass) x (acceleration due to gravity) ... are the object's weight. So if you already know its weight, then the gravitational potential energy is just (weight) x (height) and you don't need to use gravity at all.
instantaneous acceleration is the acceleration at one point. yeah, it's true
Definition: Acceleration is the rate of change of velocity as a function of time. It is vector. In calculus terms, acceleration is the second derivative of position with respect to time or, alternately, the first derivative of the velocity with respect to time.
In very general terms, the application of a force will produce an acceleration.
earth is 81.3 times the mass of the moon . acceleration due to gravity at earths surface = 9.82 (m/s)/s acceleration due to gravity at moons surface = 1.62 (m/s)/s . 1 kg at earths surface, force = 1 * 9.82 = 9.82 newtons 1 kg at moons surface, force = 1 * 1.62 = 1.62 newtons
It means the speed doesn't change. Stated in different terms, the acceleration is zero.It means the speed doesn't change. Stated in different terms, the acceleration is zero.It means the speed doesn't change. Stated in different terms, the acceleration is zero.It means the speed doesn't change. Stated in different terms, the acceleration is zero.
it was discovered many years ago but Newton was the first who described it in mathematical terms.
As defined by Isaac Newton, force equals mass times acceleration.
force is essentially a push or pull, its value in science terms can be measured using f=m*a where: f = force in newtons m = mass in kilograms a = acceleration in meters per second / per second