The density of glycerin at 25oC is: 1.261 g/cm3
4° C is the temperature of maximum density for water. Change temperature in either direction from there -- whether you warm it or cool it -- the density decreases.
An increase in temperature causes thermal expansion which increases the volume. This cause a decrease in density. Except in the case of water between 0 and 4 degrees C, where increased temperature results in a contraction and so increased density.
Density = grams/ml 1.00 g/ml = X g/5.0 ml = 5.0 grams water ============== q(joules) = mass * specific heat * change in temp. q = (5.0 grams)(4.180 J/gC)(75 C - 2.50 C) = 1515.25 Joules ---------------------------------/4.184 = 362 calories -------------------
The relationship between density and temperature is linear. In a thermal expansion, density will decrease and temperature increases and vice versa.
This question requires density to answer. Density is a ratio of mass to volume, and is dependent on temperature. Materials do have variable density based on temperature. The equation for density is mass/volume.
Temperature does not have density.
4 degrees Celsius
5 degrees Celsius
It is 3.98 degrees Celsius.
The density is is 1,26699 g/cm3.
Density of ice at 0 degrees Celsius is 916.8 grams per cubic centimeter or milliliter. The density of fresh water is dependant on the temperature: At 3.98 degrees Celsius the density is 0.999975 grams per milliliter. At 100 degrees Celsius the density is 0.958.35 grams per milliliter.
What is the density of water at 37 degrees Celsius?
In most substances, maximum density occurs at the lowest temperature attainable. The only substance that this is not true for is water, whose maximum density is at 3.98 degrees Celsius.
no. The density changes
the density of water is mostly high when its at 4 degrees celsius so the answer would be that the density of the water decreases from 4 degrees celsius to 0 degrees celcius
No, Gold is a solid at 21 degrees Celsius, or 70 degrees Fahrenheit. Gold becomes a liquid at 1337.33 degrees K, or 1064.18 degrees Celsius or 1947.52 degrees Fahrenheit.
Density of water (H2O) is dependent on temperature, among other factors. At 35 degrees Celsius the density of H20 is 994.1-kilograms per cubic meter (kg/m^3).