Newton's second law of motion, commonly known as the law of acceleration, states that when a body is acted on by a force, its resulting change in momentum takes place in the direction in which the force is applied, is proportional to the force causing it, and is inversely proportional to its mass.
F = ma
net force = mass*acceleration
a=f/m
that is , apply (and keep applying) a constant force to a mass, it will accelerate uniformly
say you wanted to accelrate a 1000kg(mass) car from 0 - 30 m/s in 3 seconds(t)
a= v/t = 10 (m/s)/s
(f = ma) = 10000n (force required)
s = (a*t^2)/2 = 45 m (distance travelled during acceleration - 3 secs)
power = work done( f *s)/t = 150kw (150 000 w) about 200 bhp
(air resistance ignored)
Newton's law of acceleration a=F/m; normally called the Second Law F=ma.
because
It states the acceleration of the object as produced by the net force is directly proportional to the net force acting on an object, and inversely proportional to the mass of the object
the second law
no
As per Newton's first law of motion, if the applied force remains the same, an increase in mass will result in a decrease in acceleration. In contrast, if the acceleration were to remain the same when the mass increases, there must be a greater force applied.
In physics there is no such thing as an "acceleration force". A force however will produce an acceleration, according to Newton's Second Law: F=ma, or force = mass x acceleration. Solving for acceleration: acceleration = force / mass
no
The law states that Force = Mass * Acceleration, and that is what the law shows.
The Second Law is Force = Mass times Acceleration. The First Law can be derived from the Second Law by setting the Focre to zero or the Acceleration to zero;. No force = no acceleration; or No acceleration = no force.
In very general terms, the application of a force will produce an acceleration.
The law of acceleration.
law number 2
the second law
Newton's second law which is F= ma Force= mass x acceleration
There is no such thing as a "Law of Acceleration", at least, not in the sense of a commonly accepted physical law. There is a definition of acceleration as the rate of change of velocity (in symbols: a = dv/dt). Then, there are several formulae that relate acceleration, final velocity, initial velocity, time, etc. Perhaps you are referring to Newton's Second Law, which also involves acceleration (a = F/m, that is, acceleration = force divided by mass).
tell me the application of pascal law for what it is find out
Law of Acceleration
By saying that the acceleration is zero.
Newton's First law; No force , no Acceleration.