You can expect them to be similar, since coconut water is mainly water.
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
No. Specific heat is the amount of heat required to raise 1 kg of material by 1 K at constant pressure, while specific gravity is the ratio of the material's density to a reference density (typically water).
Looking for the same thing i can only hazard a guess that it will be close to that of pure water and it would vary from region to region. The specific heat capacity of water is 4.18 J/(g x °C).
same
Fresh off the tree it's just about one (same as water), as it drys out it gets lower.
That is how specific heat is defined. When you measure something you have to measure it relative to some point of reference. In specific heat it was agreed upon that water was to be the standard and its specific heat would be one. Therefore everything else is measured relative to water.
The specific heat of both are essentially the same. i.e. it doesn't.
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
it doesnt, water has the same specific heat no matter what temperature it is at...about 4.18. Specific heat is a characteristic value of materials to resist changes in temperature (heat flow). Please rephrase the question if this is not the answer you are after
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
Specific heat is dimensionless, and dimensionless units have the same value in any system. Specific heat is the ratio between two densities - that of the substance considered, and that of water. The ratio of two quantities of the same dimension will naturally be a dimensionless number.
No. Specific heat is the amount of heat required to raise 1 kg of material by 1 K at constant pressure, while specific gravity is the ratio of the material's density to a reference density (typically water).
If you know the temperature and mass of an object, and the temperature, mass, and specific heat of the water, if you dunk the object in the water, and measure the temperature of the water and the object (once the object and water have the same temperature), using reasoning skills and/or equations you can figure out the specific heat of the object. Historically the specific heat was related to SH of water . Water being 1 That now is seen as archaic. The specific heat (of a substance) is the amount of heat per unit mass required to raise the temperature by one degree Celsius. This does not apply if a phase change is encountered. Every substance has to be measured separately .
Contrary to popular belief, water does not have the highest specific heat. Water has a specific heat of 4.185 Joules per Gram per Kelvin Hydrogen Gas, which probably has the highest specific heat capacity, is 14.304 Joules per Gram per Kelvin
Looking for the same thing i can only hazard a guess that it will be close to that of pure water and it would vary from region to region. The specific heat capacity of water is 4.18 J/(g x °C).
Drink coconut water
Water has a high heat capacity, so it can absorbs a lot of heat in comparison to other molecules of the same amount or volume.