Physics & Engineering: Difference between revisions

Latest revision as of 20:54, 5 March 2026

The study of how the world works at a fundamental level.

Theory of space and time, either not or in the influence of gravity.	Relativity
Non-quantum/relativistic study of motion and its causes in objects.	Classical Mechanics
Electromagnetism, the Weak interaction and the Strong interaction & gravity	Fundamental Forces
Study of fundamental particles and interactions that make up matter & radiation -- up to nucleons.	Particle Physics
On the interactions and composition of atomic nuclei.	Nuclear Physics
Study of interactions with heat, transference, and other phenomena.	Heat
Certain behaviors & phenomena of nature which appear noticeably at atomic and subatomic scales.	Quantum Physics
Fringe theories. Paraphysics (e.g. psionics): literary overview, advice, possible justifications.	Wacky

Engineering

Applications of physics -- technologizing physics for our own goals & designs.

Speculative applications of relativity: click here for wormholes, warp drives and the like.	Metric Engineering
On the art of motion produced by the expulsion of reaction mass.	Rocket Science
Developing technologies at the nanometer scale (1 nm - 999 nm).	Nanotechnology
Robotics and mechatronic engineering is covered here.	Robotics
Applications of nuclear physics - power reactors, medicinal, weapons - and more.	Nuclear Engineering
Fans of radiators navigate here!	Heat Management
Applications of Materials Science. Also, speculative materials e.g. monopoles.	Materials Engineering Anomalous Materials
Engineering for the purposes of war.	Military Technology
Shaping the environment for your civilization. Synonyms: Terraforming, Geoengineering	Environmental Engineering

Check Category:Physics & Math & Engineering for now

Citations

↑ Laboratory for Laser Energetics. The photo is also found in Dr. Bruhaug's thesis: Laser-Driven Relativistic Electron and Terahertz Radiation Sources for HED Experiments.
Summary: The picture on the left is a laser-generated Target Normal Sheath Acceleration proton source. A relativistically intense laser hits a foil and blows out a huge jet of protons (and electrons) at MeV energies.
The reddish one on the right is a laser-microchannel experiment. A relativistically intense laser is shot at so-called "microchannel array" targets that have ultratiny tubes that experimenters try and get the beam down. Crazy physics then proceeds to happen with high-energy electrons, lots of THz and lots of x-rays made.

[1] Laboratory for Laser Energetics. The photo is also found in Dr. Bruhaug's thesis: Laser-Driven Relativistic Electron and Terahertz Radiation Sources for HED Experiments.
Summary: The picture on the left is a laser-generated Target Normal Sheath Acceleration proton source. A relativistically intense laser hits a foil and blows out a huge jet of protons (and electrons) at MeV energies.
The reddish one on the right is a laser-microchannel experiment. A relativistically intense laser is shot at so-called "microchannel array" targets that have ultratiny tubes that experimenters try and get the beam down. Crazy physics then proceeds to happen with high-energy electrons, lots of THz and lots of x-rays made.

[1]

@@ Line 17: / Line 17: @@
 | style="width:50%;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Relativity]]</div>
 |-
-| style="width:50%; text-align:left;" | How and why things move the way they do.
+| style="width:50%; text-align:left;" | Non-quantum/relativistic study of motion and its causes in objects.
 | style="width:50%;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Classical Mechanics]]</div>
 |-
@@ Line 26: / Line 26: @@
 | style="width:50%; align:top;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Particle Physics]]</div>
 |-
-| style="width:50%; text-align:left;" | On nuclear matter (prominently atomic nuclei); its interactions and what makes up the stuff.
+| style="width:50%; text-align:left;" | On the interactions and composition of atomic nuclei.
 | style="width:50%;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Nuclear Physics]]</div>
 |-
-| style="width:50%; text-align:left;" | Ahh, thermodynamics.
+| style="width:50%; text-align:left;" | Study of interactions with heat, transference, and other phenomena.
 | style="width:50%;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Heat]]</div>
 |-
@@ Line 51: / Line 51: @@
 | style="width:50%;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Metric Engineering]]</div>
 |-
-| style="width:50%; text-align:left;" | It's not hard.
+| style="width:50%; text-align:left;" | On the art of motion produced by the expulsion of reaction mass.
 | style="width:50%; align:top;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Rocket Science]]</div>
 |-
@@ Line 57: / Line 57: @@
 | style="width:50%; align:top;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Nanotechnology]]</div>
 |-
-| style="width:50%; text-align:left;" | Robotics and mechatronic engineering is covered here - how to make these nifty things.
+| style="width:50%; text-align:left;" | Robotics and mechatronic engineering is covered here.
 | style="width:50%; align:top;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Robotics]]</div>
 |-
@@ Line 63: / Line 63: @@
 | style="width:50%; align:top;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Nuclear Engineering]]</div>
 |-
-| style="width:50%; text-align:left;" | Fans of radiators -- navigate here!
+| style="width:50%; text-align:left;" | Fans of radiators navigate here!
 | style="width:50%;" | <div style="border-style:solid; border-width:1px; padding:10px;">[[Heat Management]]</div>
 |-

Physics & Engineering: Difference between revisions

Latest revision as of 20:54, 5 March 2026

Citations

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