def test_planck_integral_IR_cool(self): # Taking values from Lawson, Int. J. Engng Ed. Vol. 20, No. 6, pp. 984-990, 2004 expected = 0.052110 result = planck_integral(7600, 2500) / (5.67051E-5 * 2500**4) * np.pi pdiff = abs(expected - result.value) / np.mean([expected, result.value]) self.assertFalse(pdiff > 0.01)
def test_planck_integral_UV_hot(self): # Taking values from Lawson, Int. J. Engng Ed. Vol. 20, No. 6, pp. 984-990, 2004 expected = 0.443376 result = planck_integral(3800, 10000) / (5.67051E-5 * 10000**4) * np.pi pdiff = abs(expected - result.value) / np.mean([expected, result.value]) self.assertFalse(pdiff > 0.01)
def test_planck_integral_UV_hot(self): # Taking values from Lawson, Int. J. Engng Ed. Vol. 20, No. 6, pp. 984-990, 2004 expected = 0.443376 result = planck_integral(3800, 10000) / (5.67051E-5 * 10000**4) * np.pi pdiff = abs(expected - result.value) / np.mean( [expected, result.value]) self.assertFalse(pdiff > 0.01)
def test_planck_integral_IR_cool(self): # Taking values from Lawson, Int. J. Engng Ed. Vol. 20, No. 6, pp. 984-990, 2004 expected = 0.052110 result = planck_integral(7600, 2500) / (5.67051E-5 * 2500**4) * np.pi pdiff = abs(expected - result.value) / np.mean( [expected, result.value]) self.assertFalse(pdiff > 0.01)