There is no quantum physics of a moose. Quantum physics is a type of theoretical physics, and its laws do not apply to physical objects
Calculus will help but there is more to physics than just that.
Calculus was invented to solve physics problems, so the importance of studying calculus is to solve physics problems.
One uses calculus including differential equations and vector calculus in the undergrad courses which is as far as got.
In many universities and colleges this is a course covering various topics in physics that avoids using the calculus.
Its Germany: they invented calculus, computers, all modern physics, quantum physics, nuclear physics, a big part in chemestry and the list is verry long
Calculus was created to prove physics which defines the laws of nature.
The difference between Leibniz calculus to Newton calculus was that Leibniz developed Newton's calculus into the calculus we all know today. For instance, diffentiation and intergration, limits, continuity, etc. This type of calculus was the pure mathematics. On the otherhand, the calculus which Newton found was that used in physics, such as speed and velocity which helped with physics greatly. Today, calculus not only used in just mathematics or physics, but used in finance, as well as exploited in engineering.
There is no quantum physics of a moose. Quantum physics is a type of theoretical physics, and its laws do not apply to physical objects
Nothing. Quantum is a branch of physics
Physics is an especially heavy user of the calculus: mechanics, electromagnetism, acoustics, optics. Richard Feynman was known for his great facility in this area of mathematics.
Calculus will help but there is more to physics than just that.
Calculus was invented to solve physics problems, so the importance of studying calculus is to solve physics problems.
we us trig, calculus, algebra,and of course my favorite quantum physics. just joking about quantum physics. but we do use geometry a lot. like when we build graphs but all over all we do use all types of math not physics, so if you dream of being a biologists make sure you can do geography.
The Quantum computer is used for Quantum mechanics. A regular computer or laptop has restrictions due to physics but a Quantum computer performs faster with being able to be in more states at once.
Mathematically, it's based upon analysis (calculus, differential equations, etc.) as are most fields of physics, but what really sets quantum apart from other physics fields is it's fundamental mathematical dependence on probability, linear algebra, and group theory. It's conceptually based on uncertainty, probability, and discreteness (as opposed to absolute and continuous).
Quantum Physics, Astronomical Physics