name = "Specific Entropy"
symbol = "SpecificEntropy"
snake_case_name = "specific_entropy"
short_dim_formula = "L<sup>2</sup>⋅T<sup>-2</sup>⋅Θ<sup>-1</sup>"
long_dim_formula = "Length<sup>2</sup>⋅Time<sup>-2</sup>⋅Thermodynamic Temperature<sup>-1</sup>"
units_formula = "m<sup>2</sup>⋅s<sup>-2</sup>⋅K<sup>-1</sup>"
[dimensions]
length = 2
mass = 0
time = -2
electric_current = 0
thermodynamic_temperature = -1
temperature_interval = 0
amount_of_substance = 0
luminous_intensity = 0
angle = 0
solid_angle = 0
information = 0
[units.JOULE_PER_KILOGRAM_KELVIN]
multiplier = "1.0E0"
symbol = "J/(kg·K)"
singular = "joule per kilogram kelvin"
plural = "joules per kilogram kelvin"
[units.CALORIE_PER_KILOGRAM_KELVIN]
multiplier = "4.184_E0"
symbol = "cal/(kg·K)"
singular = "calorie per kilogram kelvin"
plural = "calories per kilogram kelvin"
[units.CALORIE_PER_GRAM_KELVIN]
multiplier = "4.184_E+3"
symbol = "cal/(g·K)"
singular = "calorie per gram kelvin"
plural = "calories per gram kelvin"