1 package org.djunits.unit;
2
3 import org.djunits.quantity.Quantity;
4 import org.djunits.unit.scale.IdentityScale;
5 import org.djunits.unit.si.SIPrefixes;
6 import org.djunits.unit.unitsystem.UnitSystem;
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16
17 public class MagneticFluxDensityUnit extends Unit<MagneticFluxDensityUnit>
18 {
19
20 private static final long serialVersionUID = 20190830;
21
22
23 public static final Quantity<MagneticFluxDensityUnit> BASE = new Quantity<>("MagneticFluxDensity", "kg/s2A");
24
25
26 public static final MagneticFluxDensityUnit SI = new MagneticFluxDensityUnit()
27 .build(new Unit.Builder<MagneticFluxDensityUnit>().setQuantity(BASE).setId("T").setName("tesla")
28 .setUnitSystem(UnitSystem.SI_DERIVED).setSiPrefixes(SIPrefixes.UNIT, 1.0).setScale(IdentityScale.SCALE));
29
30
31 public static final MagneticFluxDensityUnit TESLA = SI;
32
33
34 public static final MagneticFluxDensityUnit MILLITESLA = TESLA.deriveLinear(1.0E-3, "mT", "millitesla");
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36
37 public static final MagneticFluxDensityUnit MICROTESLA =
38 TESLA.deriveLinear(1.0E-6, "muT", "microtesla", UnitSystem.SI_DERIVED, "muT", "muT", "\u03BCT");
39
40
41 public static final MagneticFluxDensityUnit NANOTESLA = TESLA.deriveLinear(1.0E-9, "nT", "nanotesla");
42
43
44 public static final MagneticFluxDensityUnit GAUSS = TESLA.deriveLinear(1.0E-4, "G", "Gauss", UnitSystem.CGS);
45 }