Its a matter of being scientifically rigorous. You can not claim the 2nd law as a law unless you first establish the first law.
newtons 2nd law states that if a force is put on an object then the object will move in the oppisite direction of the force no thats the third law
Newtons third law.
Every single object that exists obeys ALL of Newtons Laws
It isn't.
Yes.
In Newton's law of cooling, the relationship between temperature change and time is exponential. As time increases, the temperature change decreases at a decreasing rate. This means that the rate at which the temperature changes slows down over time.
Newton's Law of Cooling states that the rate of change of the temperature of an object is proportional to the difference between its own temperature and the ambient temperature (i.e. the temperature of its surroundings).
It states newtons law of gravitation
Its a matter of being scientifically rigorous. You can not claim the 2nd law as a law unless you first establish the first law.
Moore's Law states essentially the exponential nature of the curve existing between transistor count in a single chip and passed time in years. Although in most websites and sources, the curve shown is straight with transistor # being in the Y axis, it must be observed, Moore stated that the curve is exponential. Thus the graphs, if linear are logarithmic curves, as a log graph for an exponential curve is linear in nature. So instead of transistor nos (x) , we use ln(x)
To plot the graph of Newton's Law of Cooling, you can use the equation: T(t) = T0 + (T1 - T0) * e^(-kt), where T(t) is the temperature at time t, T0 is the initial temperature, T1 is the ambient temperature, k is the cooling constant, and e is Euler's number. You can plot temperature(T) vs. time(t) on a graph to observe how the temperature changes over time.
F=ma Input: newtons second law at wolframalpha.com
exponential
the law of inertia
a graph law graph shows the relationship between pressure and volume
Law of inertia.