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//! Angular momentum (base unit kilogram square meter per second, kg · m² · s⁻¹). | ||
quantity! { | ||
/// Angular momentum (base unit kilogram square meter per second, kg · m² · s⁻¹). | ||
quantity: AngularMomentum; "angular momentum"; | ||
/// Dimension of angular momentum, L²MT⁻¹ (base unit kilogram square meter per second, kg · m² · s⁻¹). | ||
dimension: ISQ< | ||
P2, // length | ||
P1, // mass | ||
N1, // time | ||
Z0, // electric current | ||
Z0, // thermodynamic temperature | ||
Z0, // amount of substance | ||
Z0>; // luminous intensity | ||
kind: dyn (crate::si::marker::AngleKind); | ||
units { | ||
/// Derived unit of angular velocity. | ||
@kilogram_square_meter_per_second: prefix!(kilo) / prefix!(kilo); "kg · m²/s", | ||
"kilogram square meter per second", "kilogram square meters per second"; | ||
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@yottanewton_meter_second: prefix!(yotta); "YN · m · s", "yottanewton meter second", | ||
"yottanewton meter seconds"; | ||
@zettanewton_meter_second: prefix!(zetta); "ZN · m · s", "zettanewton meter second", | ||
"zettanewton meter seconds"; | ||
@exanewton_meter_second: prefix!(exa); "EN · m · s", "exanewton meter second", | ||
"exanewton meter seconds"; | ||
@petanewton_meter_second: prefix!(peta); "PN · m · s", "petanewton meter second", | ||
"petanewton meter seconds"; | ||
@teranewton_meter_second: prefix!(tera); "TN · m · s", "teranewton meter second", | ||
"teranewton meter seconds"; | ||
@giganewton_meter_second: prefix!(giga); "GN · m · s", "giganewton meter second", | ||
"giganewton meter seconds"; | ||
@meganewton_meter_second: prefix!(mega); "MN · m · s", "meganewton meter second", | ||
"meganewton meter seconds"; | ||
@kilonewton_meter_second: prefix!(kilo); "kN · m · s", "kilonewton meter second", | ||
"kilonewton meter seconds"; | ||
@hectonewton_meter_second: prefix!(hecto); "hN · m · s", "hectonewton meter second", | ||
"hectonewton meter seconds"; | ||
@decanewton_meter_second: prefix!(deca); "daN · m · s", "decanewton meter second", | ||
"decanewton meter seconds"; | ||
@newton_meter_second: prefix!(none); "N · m · s", "newton meter second", | ||
"newton meter seconds"; | ||
@decinewton_meter_second: prefix!(deci); "dN · m · s", "decinewton meter second", | ||
"decinewton meter seconds"; | ||
@centinewton_meter_second: prefix!(centi); "cN · m · s", "centinewton meter second", | ||
"centinewton meter seconds"; | ||
@millinewton_meter_second: prefix!(milli); "mN · m · s", "millinewton meter second", | ||
"millinewton meter seconds"; | ||
@micronewton_meter_second: prefix!(micro); "µN · m · s", "micronewton meter second", | ||
"micronewton meter seconds"; | ||
@nanonewton_meter_second: prefix!(nano); "nN · m · s", "nanonewton meter second", | ||
"nanonewton meter seconds"; | ||
@piconewton_meter_second: prefix!(pico); "pN · m · s", "piconewton meter second", | ||
"piconewton meter seconds"; | ||
@femtonewton_meter_second: prefix!(femto); "fN · m · s", "femtonewton meter second", | ||
"femtonewton meter seconds"; | ||
@attonewton_meter_second: prefix!(atto); "aN · m · s", "attonewton meter second", | ||
"attonewton meter seconds"; | ||
@zeptonewton_meter_second: prefix!(zepto); "zN · m · s", "zeptonewton meter second", | ||
"zeptonewton meter seconds"; | ||
@yoctonewton_meter_second: prefix!(yocto); "yN · m · s", "yoctonewton meter second", | ||
"yoctonewton meter seconds"; | ||
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@newton_yottameter_second: prefix!(yotta); "N · Ym · s", "newton yottameter second", | ||
"newton yottameter seconds"; | ||
@newton_zettameter_second: prefix!(zetta); "N · Zm · s", "newton zettameter second", | ||
"newton zettameter seconds"; | ||
@newton_exameter_second: prefix!(exa); "N · Em · s", "newton exameter second", | ||
"newton exameter seconds"; | ||
@newton_petameter_second: prefix!(peta); "N · Pm · s", "newton petameter second", | ||
"newton petameter seconds"; | ||
@newton_terameter_second: prefix!(tera); "N · Tm · s", "newton terameter second", | ||
"newton terameter seconds"; | ||
@newton_gigameter_second: prefix!(giga); "N · Gm · s", "newton gigameter second", | ||
"newton gigameter seconds"; | ||
@newton_megameter_second: prefix!(mega); "N · Mm · s", "newton megameter second", | ||
"newton megameter seconds"; | ||
@newton_kilometer_second: prefix!(kilo); "N · km · s", "newton kilometer second", | ||
"newton kilometer seconds"; | ||
@newton_hectometer_second: prefix!(hecto); "N · hm · s", "newton hectometer second", | ||
"newton hectometer seconds"; | ||
@newton_decameter_second: prefix!(deca); "N · dam · s", "newton decameter second", | ||
"newton decameter seconds"; | ||
@newton_decimeter_second: prefix!(deci); "N · dm · s", "newton decimeter second", | ||
"newton decimeter seconds"; | ||
@newton_centimeter_second: prefix!(centi); "N · cm · s", "newton centimeter second", | ||
"newton centimeter seconds"; | ||
@newton_millimeter_second: prefix!(milli); "N · mm · s", "newton millimeter second", | ||
"newton millimeter seconds"; | ||
@newton_micrometer_second: prefix!(micro); "N · µm · s", "newton micrometer second", | ||
"newton micrometer seconds"; | ||
@newton_nanometer_second: prefix!(nano); "N · nm · s", "newton nanometer second", | ||
"newton nanometer seconds"; | ||
@newton_picometer_second: prefix!(pico); "N · pm · s", "newton picometer second", | ||
"newton picometer seconds"; | ||
@newton_femtometer_second: prefix!(femto); "N · fm · s", "newton femtometer second", | ||
"newton femtometer seconds"; | ||
@newton_attometer_second: prefix!(atto); "N · am · s", "newton attometer second", | ||
"newton attometer seconds"; | ||
@newton_zeptometer_second: prefix!(zepto); "N · zm · s", "newton zeptometer second", | ||
"newton zeptometer seconds"; | ||
@newton_yoctometer_second: prefix!(yocto); "N · ym · s", "newton yoctometer second", | ||
"newton yoctometer seconds"; | ||
} | ||
} | ||
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#[cfg(test)] | ||
mod tests { | ||
storage_types! { | ||
use crate::num::One; | ||
use crate::si::angular_momentum as am; | ||
use crate::si::area as a; | ||
use crate::si::force as f; | ||
use crate::si::length as l; | ||
use crate::si::mass as m; | ||
use crate::si::quantities::*; | ||
use crate::si::time as t; | ||
use crate::tests::Test; | ||
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#[test] | ||
fn check_dimension() { | ||
let _: AngularMomentum<V> = (Mass::new::<m::kilogram>(V::one()) | ||
* Area::new::<a::square_meter>(V::one()) | ||
/ Time::new::<t::second>(V::one())) | ||
.into(); | ||
let _: AngularMomentum<V> = (Force::new::<f::newton>(V::one()) | ||
* Length::new::<l::meter>(V::one()) | ||
* Time::new::<t::second>(V::one())) | ||
.into(); | ||
} | ||
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#[test] | ||
fn check_units_mass_area() { | ||
test::<m::kilogram, a::square_meter, am::kilogram_square_meter_per_second>(); | ||
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fn test<M: m::Conversion<V>, A: a::Conversion<V>, AM: am::Conversion<V>>() { | ||
Test::assert_approx_eq( | ||
&AngularMomentum::new::<AM>(V::one()), | ||
&(Mass::new::<M>(V::one()) | ||
* Area::new::<A>(V::one()) | ||
/ Time::new::<t::second>(V::one())) | ||
.into(), | ||
); | ||
} | ||
} | ||
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#[test] | ||
fn check_units_force_length() { | ||
test::<f::yottanewton, l::meter, am::yottanewton_meter_second>(); | ||
test::<f::zettanewton, l::meter, am::zettanewton_meter_second>(); | ||
test::<f::exanewton, l::meter, am::exanewton_meter_second>(); | ||
test::<f::petanewton, l::meter, am::petanewton_meter_second>(); | ||
test::<f::teranewton, l::meter, am::teranewton_meter_second>(); | ||
test::<f::giganewton, l::meter, am::giganewton_meter_second>(); | ||
test::<f::meganewton, l::meter, am::meganewton_meter_second>(); | ||
test::<f::kilonewton, l::meter, am::kilonewton_meter_second>(); | ||
test::<f::hectonewton, l::meter, am::hectonewton_meter_second>(); | ||
test::<f::decanewton, l::meter, am::decanewton_meter_second>(); | ||
test::<f::newton, l::meter, am::newton_meter_second>(); | ||
test::<f::decinewton, l::meter, am::decinewton_meter_second>(); | ||
test::<f::centinewton, l::meter, am::centinewton_meter_second>(); | ||
test::<f::millinewton, l::meter, am::millinewton_meter_second>(); | ||
test::<f::micronewton, l::meter, am::micronewton_meter_second>(); | ||
test::<f::nanonewton, l::meter, am::nanonewton_meter_second>(); | ||
test::<f::piconewton, l::meter, am::piconewton_meter_second>(); | ||
test::<f::femtonewton, l::meter, am::femtonewton_meter_second>(); | ||
test::<f::attonewton, l::meter, am::attonewton_meter_second>(); | ||
test::<f::zeptonewton, l::meter, am::zeptonewton_meter_second>(); | ||
test::<f::yoctonewton, l::meter, am::yoctonewton_meter_second>(); | ||
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test::<f::newton, l::yottameter, am::newton_yottameter_second>(); | ||
test::<f::newton, l::zettameter, am::newton_zettameter_second>(); | ||
test::<f::newton, l::exameter, am::newton_exameter_second>(); | ||
test::<f::newton, l::petameter, am::newton_petameter_second>(); | ||
test::<f::newton, l::terameter, am::newton_terameter_second>(); | ||
test::<f::newton, l::gigameter, am::newton_gigameter_second>(); | ||
test::<f::newton, l::megameter, am::newton_megameter_second>(); | ||
test::<f::newton, l::kilometer, am::newton_kilometer_second>(); | ||
test::<f::newton, l::hectometer, am::newton_hectometer_second>(); | ||
test::<f::newton, l::decameter, am::newton_decameter_second>(); | ||
test::<f::newton, l::decimeter, am::newton_decimeter_second>(); | ||
test::<f::newton, l::centimeter, am::newton_centimeter_second>(); | ||
test::<f::newton, l::millimeter, am::newton_millimeter_second>(); | ||
test::<f::newton, l::micrometer, am::newton_micrometer_second>(); | ||
test::<f::newton, l::nanometer, am::newton_nanometer_second>(); | ||
test::<f::newton, l::picometer, am::newton_picometer_second>(); | ||
test::<f::newton, l::femtometer, am::newton_femtometer_second>(); | ||
test::<f::newton, l::attometer, am::newton_attometer_second>(); | ||
test::<f::newton, l::zeptometer, am::newton_zeptometer_second>(); | ||
test::<f::newton, l::yoctometer, am::newton_yoctometer_second>(); | ||
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fn test<F: f::Conversion<V>, L: l::Conversion<V>, AM: am::Conversion<V>>() { | ||
Test::assert_approx_eq( | ||
&AngularMomentum::new::<AM>(V::one()), | ||
&(Force::new::<F>(V::one()) | ||
* Length::new::<L>(V::one()) | ||
* Time::new::<t::second>(V::one())) | ||
.into(), | ||
); | ||
} | ||
} | ||
} | ||
} |
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