public void Constructor1ShouldStoreAndPrintValueAndSymbol() { VoidRatio vr = new VoidRatio(.1); String correctAnswer = "e = 0.1"; Assert.AreEqual("e", vr.Symbol); Assert.AreEqual(vr.NumericValue, .1); Assert.AreEqual(correctAnswer, vr.ToString()); }
public void Constructor2ShouldStoreAndPrintValueAndSymbol() { VolumeOfVoids vv = new VolumeOfVoids(10, VolumeUnits.CubicCentimeters); VolumeOfSolidMatter vs = new VolumeOfSolidMatter(10, VolumeUnits.CubicCentimeters); VoidRatio vr = new VoidRatio(vv, vs); String correctAnswer = "e = 1"; Assert.AreEqual("e", vr.Symbol); Assert.AreEqual(vr.NumericValue, 1); Assert.AreEqual(correctAnswer, vr.ToString()); }
public void Constructor3ShouldStoreAndPrintValueAndSymbolWithFt3() { VolumeOfVoids vv = new VolumeOfVoids(10, VolumeUnits.CubicCentimeters); VoidRatio vr = new VoidRatio(.1); VolumeOfSolidMatter vsm = new VolumeOfSolidMatter(vr, vv, VolumeUnits.CubicFeet); String correctAnswer = "V_s = 0 ft^3"; Assert.AreEqual("V_s", vsm.Symbol); Assert.AreEqual(Math.Round(vsm.NumericValue, 5), 0.00353); Assert.AreEqual(vsm.UnitOfMeasure, VolumeUnits.CubicFeet); Assert.AreEqual(correctAnswer, vsm.ToString()); }
public void Constructor5ShouldStoreAndPrintValueAndSymbolWithM3() { VoidRatio vr = new VoidRatio(.1); VolumeOfSolidMatter vsm = new VolumeOfSolidMatter(10, VolumeUnits.CubicCentimeters); VolumeOfVoids vv = new VolumeOfVoids(vr, vsm, VolumeUnits.CubicMeters); String correctAnswer = "V_v = 0 m^3"; Assert.AreEqual("V_v", vv.Symbol); Assert.AreEqual(Math.Round(vv.NumericValue, 6), 1e-6); Assert.AreEqual(vv.UnitOfMeasure, VolumeUnits.CubicMeters); Assert.AreEqual(correctAnswer, vv.ToString()); }
public void Constructor3ShouldStoreAndPrintValueAndSymbolWithPoundPerFootCubed() { SpecificGravityOfSolids sgos = new SpecificGravityOfSolids(10); DegreeOfSaturation dos = new DegreeOfSaturation(0.5); VoidRatio vr = new VoidRatio(0.5); UnitWeightOfWater uww = new UnitWeightOfWater(1, UnitWeightUnits.GramPerCubicCentimeter); TotalUnitWeight tuw = new TotalUnitWeight(sgos, dos, vr, uww, UnitWeightUnits.PoundPerCubicFoot); Assert.AreEqual(Math.Round(tuw.NumericValue, 1), 426.6); Assert.AreEqual(tuw.UnitOfMeasure, UnitWeightUnits.PoundPerCubicFoot); Assert.AreEqual(tuw.Symbol, "𝛾_t");; }
/// <summary> /// Initializes a new instance of the <see cref="VolumeOfVoids"/> class. /// </summary> /// <param name="voidRatio">e in e=V_v/V_s.</param> /// <param name="solidVolume">V_s in e=V_v/V_s.</param> /// <param name="units">Measurement units to hold value after initial calculation (ie cc).</param> public VolumeOfVoids(VoidRatio voidRatio, VolumeOfSolidMatter solidVolume, VolumeUnits units) : this(BaseVolumeScalar.ConvertToUnits(solidVolume, units).NumericValue *voidRatio.NumericValue, units) { }
/// <summary> /// Initializes a new instance of the <see cref="TotalUnitWeight"/> class. /// </summary> /// <param name="gravityOfSolids">G_s in ((G_s+Se)/(1+e))gamma_w.</param> /// <param name="saturation">S in ((G_s+Se)/(1+e))gamma_w.</param> /// <param name="voidRatio">e in ((G_s+Se)/(1+e))gamma_w.</param> /// <param name="unitWeightOfWater">gamma_w in ((G_s+Se)/(1+e))gamma_w.</param> /// <param name="units">Measurement unit to use after construction from formula (ie g/cc).</param> public TotalUnitWeight(SpecificGravityOfSolids gravityOfSolids, DegreeOfSaturation saturation, VoidRatio voidRatio, UnitWeightOfWater unitWeightOfWater, UnitWeightUnits units) : this(((gravityOfSolids.NumericValue + (saturation.NumericValue * voidRatio.NumericValue)) / (1 + voidRatio.NumericValue)) * ConvertToUnits(unitWeightOfWater, units).NumericValue, units) { }