Physics relates to daily life because, without physics, X-rays and many other medical tools would be useless. Without physics, sending electricity from one place to another would be impossible, which means physics allows us to use phones, televisions and almost all devices. Without physics, it would be impossible to know how to keep cars and planes moving, or how to construct buildings.Know More
Physics allows doctors to use X-rays and ultrasounds, which can be crucial when finding a problem with a patient or helping a woman give birth. Physics also deals with lasers, so without physics processes like laser eye surgery would not exist. Without physics, it would be impossible to understand how energy moves. As a result, without physics, it would be impossible to send energy from one point to another safely. There is also a field of physics called kinematics that physicists use to determine whether a mode of transport will be able to move. It is also used by architects to develop buildings. Physicists determine the safety of modes of transport and vehicles by calculating their weights, forces and more.
Almost everything actually relates to physics in some way or another. Without it, we wouldn't even know how fast the Earth is moving.Learn more about Physics
The first-century inventor and scientist Archimedes is remembered by physicists as the originator of the principles of mechanics, buoyancy, the lever and the pulley, according to Famousscientists.org. Perhaps his best-known contribution to physics is his discovery of the principle of displacement, which states that objects displace a volume of water equal to their own weight.Full Answer >
Physics has many real-life applications, and the principles of physics are at work any time someone drives a car, lifts something heavy or tries to stay warm in the winter.Full Answer >
A few of the ways that integers are used in daily life are highway speed limits, clocks, addresses, thermometers and money. Integers are also used for hockey scores, altitude levels and maps.Full Answer >
One of the most common definitions for efficiency in physics is a measurement of how much of the desired work or product is obtained from each unit of energy invested into that task or product. An additional definition of efficiency is based on the total amount of energy required to produce a specific amount of a product. Both definitions fall under the category of first law efficiency because they are derived from the first law of thermodynamics.Full Answer >