User:Mark Widmer/sandbox: Difference between revisions

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(→‎Templates for Math Objects: Added multiplier dot under "non-math")
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Sandbox. [[User:Mark Widmer|Mark Widmer]] ([[User talk:Mark Widmer|talk]]) 01:17, 5 August 2021 (UTC)
Sandbox. [[User:Mark Widmer|Mark Widmer]] ([[User talk:Mark Widmer|talk]]) 01:17, 5 August 2021 (UTC)
==[[MLB]]==
Upkeep to-do list
Update world series info
* Winning team's page
* Runner-up team's page
* [[Major_League_Baseball/Catalogs/Past_World_Series_winners|List of world series winners]]
Update as needed:
* Changes to [[Major_League_Baseball#League_Structure_and_Playoffs|league structure]]
* Changes to [[Major_League_Baseball#League_Structure_and_Playoffs|playoff format]]
* Major [[Major_League_Baseball#Notable_rule_changes|rule changes]]
* Change in city (or "home designation"), nickname, stadium, or stadium name -- on team's home page
** "Home designation" could be e.g. changing between a team's city and state, e.g. Florida Marlins vs. Miami Marlins, without an actual relocation
==[[Benchmark quantities]]==
==[[Laser]]==
Section: "?"
Several features are necessary in order for a device to work as a laser.
* A lasing medium, which is a system whose constituent atoms or particles have two quantum states. Transitions of the particles between the two states entail the emission or absorption of photons. The wavelength of the photons is determined by the energy difference between the two states. The particles generally have other states in addition to the two states involved in generating the laser light.
* A population inversion between the two quantum states in the lasing medium. A population inversion is when more particles are in the higher-energy, or upper, state than in the lower-energy state. This condition ensures that more photons are generated via stimulated emission than are lost via absorption.
* A means of cycling the laser-generated light for multiple passes through the lasing medium. This is usually accomplished by having two or more mirrors that reflect the light the medium emits back toward the medium.
* A means of extracting the laser-generated light as an external beam. This is generally accomplished by using a partially-transmitting mirror.


==Heat equation==
==Heat equation==
Line 88: Line 120:
<math>\rho^2 (1 - \rho (1+\mu)) (1 - \rho)^2 = \rho^2 - \mu (1-\rho)^2 </math>
<math>\rho^2 (1 - \rho (1+\mu)) (1 - \rho)^2 = \rho^2 - \mu (1-\rho)^2 </math>


==Didymos==
[[Didymos]]
The [[asteroid]] '''Didymos''' and its smaller, satellite asteroid [[Dimorphos]] comprise a binary asteroid system within the [[solar system]].
==Pole-in-the-barn Paradox==
The lack of simultaneity in special relativity is illustrated by the pole-in-the-barn paradox. The scenario includes a long, horizontal pole and a barn with both a front and a back door. The pole's length is Lp ''in its rest frame'', and the distance between the barn's two doors is Lb < Lp. As such, when at rest the pole cannot fit inside the barn. When the pole is partially inside the barn and at rest, at least one of the two barn doors must be open, as one or possibly both ends of the pole will extend outside of the barn.


Now imagine that the pole is moving horizontally at a constant relativistic speed toward the barn, whose doors are both open. The speed is fast enough so that, in the barn's rest frame, the pole is length-contracted to Lp' < Lb. As the pole moves through the barn, there is a brief amount of time where it is completely inside the barn ''as seen by an observer at rest inside the barn''. When the pole is completely inside the barn, the two barn doors are both briefly shut at the same time, and then reopened before the pole starts exiting the rear of the barn.
Next we look at things as observers moving with the pole. In this reference frame, the length of the ''barn'' is contracted to Lb' < Lb, which is still less than Lp. In other words, the pole is seen to be longer than the space inside the barn. But then how is it possible for the two barn doors to close without either hitting / getting hit by the pole?
This paradox is resolved by noting that, in pole's rest frame, the two doors do not get shut at the same instant. Instead, the rear door is shut and reopened before the front of the pole reaches the rear door and the rear of the pole has yet to enter the barn. A short time later, when the rear of the pole is inside the barn, the front door is shut and reopened -- and by this time the front of the pole has passed outside, beyond the rear door.
The fact that the two doors are shut and reopened at the same time in the barn's frame, but at different times in the pole's rest frame, illustrates the idea that [something about simultaneity].
==Color temperature==
The color temperature is a characteristic of a broad-spectrum light source such as a light bulb. It is typically described as a measure of the "warmth" of the light. Light sources that are redder in appearance are described as being "warm", whereas sources that are bluer in appearance are described as being "cool".
==New sections go above this one (to keep templates at the bottom)==


==Templates for Math Objects==
==Templates for Math Objects==
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multiplier dot used in units: kg•m/s<sup>2</sup>
multiplier dot used in units: kg•m/s<sup>2</sup>
°C °F


Greek characters and other math formatting:
Greek characters and other math formatting:
Line 123: Line 179:


''x''&sup2;&nbsp;&ge;&nbsp;0
''x''&sup2;&nbsp;&ge;&nbsp;0
==Table Template==
{| class="wikitable"
|-
! Header of column 1
! Header of col 2
! Header of c3
|-
| row 1, col 1 (r1,c1) entry
2nd line of r1,c1
| r1,c2
| r1,c3
r1,c3, line2
|-
| r2,c1
| r2,c2
| r2,c3
|-
|
|
|
|-
|
|
|
|-
|
|
|
|}

Latest revision as of 19:38, 7 November 2024

Sandbox. Mark Widmer (talk) 01:17, 5 August 2021 (UTC)

MLB

Upkeep to-do list

Update world series info

Update as needed:

  • Changes to league structure
  • Changes to playoff format
  • Major rule changes
  • Change in city (or "home designation"), nickname, stadium, or stadium name -- on team's home page
    • "Home designation" could be e.g. changing between a team's city and state, e.g. Florida Marlins vs. Miami Marlins, without an actual relocation

Benchmark quantities

Laser

Section: "?"

Several features are necessary in order for a device to work as a laser.

  • A lasing medium, which is a system whose constituent atoms or particles have two quantum states. Transitions of the particles between the two states entail the emission or absorption of photons. The wavelength of the photons is determined by the energy difference between the two states. The particles generally have other states in addition to the two states involved in generating the laser light.
  • A population inversion between the two quantum states in the lasing medium. A population inversion is when more particles are in the higher-energy, or upper, state than in the lower-energy state. This condition ensures that more photons are generated via stimulated emission than are lost via absorption.
  • A means of cycling the laser-generated light for multiple passes through the lasing medium. This is usually accomplished by having two or more mirrors that reflect the light the medium emits back toward the medium.
  • A means of extracting the laser-generated light as an external beam. This is generally accomplished by using a partially-transmitting mirror.

Heat equation

Heat_equation

Define variables when equation is used for temperature: u=temperature, k = k_therm / (c*rho)

Define variable when equation refers to diffusion: u = density???

Draft for additions to Hill_sphere New sections:

Hill sphere and L1 Lagrange point

-- added note in Formulas section

Hill sphere of the Sun

-- added to article

Hill sphere of objects that orbit Earth

The Moon -- added to article

Artificial satellites in low-Earth orbit -- added to article

L1 Lagrange point for comparable-mass objects

Usually, derivations of the L1 point assume a planetary mass that is much less than the star's mass. This no longer applies if the orbiting objects have comparable masses. This is the case for many binary star systems. For example, in the Alpha Centauri system, the stars Alpha Centauri A and B have masses that are 1.1 and 0.9 times that of the Sun, respectively, or a mass ratio of about 0.8.

For two equal-mass objects, let R be the distance between the objects. Each object is then in a circular orbit of radius R/2 about the center of mass, which is halfway between them.

Outline:

We follow the derivation for small planet/star mass ratio given at http://www.phy6.org/stargaze/Slagrang.htm, without making the small-ratio approximations that are incorporated there.

Planet/star mass ratio , with

Equate the gravitational force (which acts at a distance R) with the centripetal force (for a circle of radius ):


Mult by R/m:

Substitute for

An small-mass object at the L1 point, a distance r from object m, will have an orbit with radius and the same period T:

,

so


Since T is the same for the planet and an object at the L1 point,


Divide through by GM

Didymos

Didymos

The asteroid Didymos and its smaller, satellite asteroid Dimorphos comprise a binary asteroid system within the solar system.

Pole-in-the-barn Paradox

The lack of simultaneity in special relativity is illustrated by the pole-in-the-barn paradox. The scenario includes a long, horizontal pole and a barn with both a front and a back door. The pole's length is Lp in its rest frame, and the distance between the barn's two doors is Lb < Lp. As such, when at rest the pole cannot fit inside the barn. When the pole is partially inside the barn and at rest, at least one of the two barn doors must be open, as one or possibly both ends of the pole will extend outside of the barn.

Now imagine that the pole is moving horizontally at a constant relativistic speed toward the barn, whose doors are both open. The speed is fast enough so that, in the barn's rest frame, the pole is length-contracted to Lp' < Lb. As the pole moves through the barn, there is a brief amount of time where it is completely inside the barn as seen by an observer at rest inside the barn. When the pole is completely inside the barn, the two barn doors are both briefly shut at the same time, and then reopened before the pole starts exiting the rear of the barn.

Next we look at things as observers moving with the pole. In this reference frame, the length of the barn is contracted to Lb' < Lb, which is still less than Lp. In other words, the pole is seen to be longer than the space inside the barn. But then how is it possible for the two barn doors to close without either hitting / getting hit by the pole?

This paradox is resolved by noting that, in pole's rest frame, the two doors do not get shut at the same instant. Instead, the rear door is shut and reopened before the front of the pole reaches the rear door and the rear of the pole has yet to enter the barn. A short time later, when the rear of the pole is inside the barn, the front door is shut and reopened -- and by this time the front of the pole has passed outside, beyond the rear door.

The fact that the two doors are shut and reopened at the same time in the barn's frame, but at different times in the pole's rest frame, illustrates the idea that [something about simultaneity].

Color temperature

The color temperature is a characteristic of a broad-spectrum light source such as a light bulb. It is typically described as a measure of the "warmth" of the light. Light sources that are redder in appearance are described as being "warm", whereas sources that are bluer in appearance are described as being "cool".

New sections go above this one (to keep templates at the bottom)

Templates for Math Objects

https://en.citizendium.org/wiki/Help:Displaying_mathematical_formulas

text in math using mbox:

spaces ignored if using mathrm:

space characters using backslash:

Non-math

6.02 x 1023

small superscript: 10² 10²³

multiplier dot used in units: kg•m/s2

°C °F

Greek characters and other math formatting:

https://en.citizendium.org/wiki/CZ:How_to_edit_an_article#Character_formatting

x² ≥ 0


Table Template

Header of column 1 Header of col 2 Header of c3
row 1, col 1 (r1,c1) entry

2nd line of r1,c1

r1,c2 r1,c3

r1,c3, line2

r2,c1 r2,c2 r2,c3