Physics and technology are deeply linked together. However, their relation with each other depends on the order that events happen. For instance, if a physicist theorizes that a certain thing is possible, he will first validate it, and then share it to the world. Technology is then effected to a degree that depends on the nature of the theory. For instance, when hydrogen-7 was theorized and then synthesized a few years back, technology didn't even notice, but when Fermi was able to demonstrate a nuclear chain reaction, technology vaulted forward!
The opposite process works a little differently (parity violation!). If a new technological device is created via "trial and error" that hasn't yet been explained by physics, the physics community will devote a size-able amount of time and energy to figure out why it works, regardless of the usefulness or significance of the device.
Technology involves the use of scientific knowledge to develop tools, machines, and systems to solve problems and improve efficiency. Physics plays a key role in technology by providing the fundamental principles and laws that govern the behavior of matter and energy, which are essential for the design and functioning of technological devices and systems. Technologies such as computers, smartphones, and satellites rely on principles of physics to operate effectively.
Physics is the foundation of radiologic technology, as it explains the principles behind the generation of X-rays, their interaction with the human body, and how they form images on detectors. Understanding physics helps radiologic technologists optimize imaging techniques for diagnostic purposes while ensuring patient safety by minimizing radiation exposure. An in-depth knowledge of physics also aids in troubleshooting equipment issues and adapting to new advancements in technology in the field of radiology.
Physics and technology are combined because physics provides the underlying principles and laws that govern how the physical world works, and technology applies these principles to create practical solutions for various problems or advancements. By combining physics and technology, we can develop innovative products, processes, and systems that benefit society and drive progress in various fields.
Technology is nothing without Physics. Every technology involves Physics. Examples are the LRT's, computers, cellular phones, or any electronics using electricity which is involved in the study of Physics. The computer will not also work without the magnets and loops of wires which are also involved in the study of Physics. Physics deals with understanding of the natural world, while technology aims to apply this understanding into the man-made world. Technology might even be considered as the offspring of Physics. The world wide web, laser, superconductors and semiconductors that form the foundations of our modern technology were all invented by physicists.
Physics provides the fundamental principles and theories that drive technological advancements. Technology applies these principles in practical ways to solve problems and improve our daily lives. The close relationship between physics and technology enables the development of new inventions and innovations that shape our modern world.
Technology involves the use of scientific knowledge to develop tools, machines, and systems to solve problems and improve efficiency. Physics plays a key role in technology by providing the fundamental principles and laws that govern the behavior of matter and energy, which are essential for the design and functioning of technological devices and systems. Technologies such as computers, smartphones, and satellites rely on principles of physics to operate effectively.
What did you say?! Relate technology?? Why would you relate technology these days?
Physics is the foundation of radiologic technology, as it explains the principles behind the generation of X-rays, their interaction with the human body, and how they form images on detectors. Understanding physics helps radiologic technologists optimize imaging techniques for diagnostic purposes while ensuring patient safety by minimizing radiation exposure. An in-depth knowledge of physics also aids in troubleshooting equipment issues and adapting to new advancements in technology in the field of radiology.
Computers can simulate physics.
Latest technology are led
physics, mathematics
Physics and technology are combined because physics provides the underlying principles and laws that govern how the physical world works, and technology applies these principles to create practical solutions for various problems or advancements. By combining physics and technology, we can develop innovative products, processes, and systems that benefit society and drive progress in various fields.
they listen to whales with technology
Physics is the most fundamental of all natural science.Principles of physics related with chemistry,biology,biophysics,meteorology,geology
ugly
by the balance of buoyant and gravitational force
15,000 Baby legs, obviously.