Pure water achieves maximum density at 3.98 °C.
The maximal density of water (0,999 972 g/cm3) is at 4 0C or 39 0F or 277,15 K.
At 40 Celsius.
That's at 3.98 degrees Celsius.
20 degrees
Water boils at 373.15K.
The answer would be 277 K (approx. 4°C, just above freezing). The temperatures of 0 K, 4 K, and 273 K represent ice under normal conditions, which is less dense than water.
In this order: Time, Flow, Temperature.
Density of waterThe density of water is greatest at about four degrees C (39.2° F or 277degrees Kelvin) which is a density of 1.000 kg per liter (62.4 pounds per cubic foot). Liquids expand slightly as their temperature is raised, but liquid water is denser than solid water (ice). That is why ice floats: it is less dense than liquid water. That is due to the crystal structure of ice. When water freezes, its volume increases about nine percent.277 K.Density rho = mass m / Volume V.Water has a density of 1,000 kg/m3 = 1,000 g/L = 1.000 kg/dm3 = 1.000 kg/L = 1.000 g/cm3 = 1.000 g/mL at the temperature of 3.98 degrees Celsius.Temperature in degrees Celsiusand the density of water:1 ................. 999,902 ................. 999,943 ................. 999,964 ................. 999,975 ................. 999,966 ................. 999,947 ................. 999,90The highest density is only at around 4 degreesCelsius.======================================================Allow me to answer:FOR PENN FOSTER USERSit is 277 K
Water is a liquid at this pressure and temperature.
The maximum density of water occurs at a temperature of 4°C
At 4oC is the greatest density of water: 0.999 kg/L
Density of a liquid is indirectly proportional to the temperature. When the temperature raises, the density of the liquid decreases. Therefor the temperature has an effect on water density.
The condensation point in Kelvin is 373 Kelvin. At this temperature, the liquid and gaseous state of water exist in equilibrium.
Water boils at 373.15K.
Water is most dense at 4oC. At this temperature it has a density of 1000 kg/m3
The answer would be 277 K (approx. 4°C, just above freezing). The temperatures of 0 K, 4 K, and 273 K represent ice under normal conditions, which is less dense than water.
The metric unit of measurement for temperature is kelvin. Water freezes at 32 degrees fahrenheit (0 degrees celsius), which is 273.15 kelvin.
Steel has the greatest density of the three.
In this order: Time, Flow, Temperature.
The base unit for temperature is the Kelvin. Kelvin takes as its zero point absolute zero (-273.15oC). A kelvin is defined as 1/273.16 of the temperature of the triple point of water, triple point is the temperature and pressure where a substance can exist as solid, liquid, and gas at equilibrium, for water this temperature is 0.01oC. This means that one kelvin is the same size as one degree Celsius, or temperature in Celsius is temperature in kelvin+ 273.15. Most non-technical temperatures are expressed in Celsius.
Dear Wiki Questioner, The freezing point of water occurs at 273.15 K. We can calculate this because water freezes at 0 degrees Celsius, and we can convert from Celsius to Kelvin with the following Formula: Temperature in Kelvin = 273.15 + Temperature in Celsius So if our Temperature of freezing water in Celsius is 0 degrees, we know that our temperature in Kelvin is 273.15 + 0 = 273.15