like plumbers depend on wrenches, and authors on words
The laws of physics depend on mathematics - sometimes very complex mathematics.
There is no evidence that Einstein made even one great contribution to mathematics. Einstein relied heavily on mathematics to provide his contributions to physics, of which there are many.
Mathematics is the Microscope and Telescope and Language of Physics.
Physics is a manifestation of the mathematics and logic of nature.
Physics is the study of matter and energy and their interactions. These can be understood and described using mathematics and that is the reason that mathematics is referred to as the language of physics.
Mathematics is easier. Physics requires mathematics to understand physics. Different people find different subjects easier. For some, physics is more concrete and easier.
Mathematics
Physics, particularly quantum physics (which is essentially mathematics).
The research of Mathematics is the study of Mathematics with the goal of expanding the usefulness and completeness of the subject. Mathematics has many, many branches which focus on different topics, such as the study of surfaces (Topology) and shapes (Geometry). Many applied sciences such as Statistics and Computer Science are branches of Mathematics. Modern advanced Physics relies heavily on different branches of Mathematics.
Yes, that is possible. The sciences of physics, chemistry, and engineering do not depend upon the ability to write essays.
Astronomy, Physics, Mathematics and the like. Essentially anything either involving routine use of advanced mathematics and physics or pure physics.
You NEED math to understand physics. If you don't know math, you won't be able to understand physics. The mathematical structure of a physics theory often points the way to further advances in that theory and even to empirical predictions, and argued that this is not just a coincidence and therefore must reflect some larger and deeper truth about both mathematics and physics. Various approximations that constitute our current physics theories are successful because simple mathematical structures can provide good approximations of certain aspects of more complex mathematical structures. In other words, our successful theories are not mathematics approximating physics, but mathematics approximating mathematics.