Any amount of water can make an ice cube.
It's not the amount that determines if water will become ice, it is the temperature.
The water just needs to be at a temperature of 0oC or lower, and it will become ice.
ice is a solid so u can't say ml, u may say grams, but anw, hypothetically speaking, it is still 50ml.
680.4
By assuming density of water 1 g/ml the total weight of 4 times 160 ml is 22.5757 oz.
If you are asking for millilitters (mL) then: 100 mL * (1 L / 1000 mL) = 0.1 L
Ice expands as it warms. At 4 degrees C water achieves it's maximum density. Warm ice is less dense than cold ice. Any amount of liquid water would mean that the ice has gotten as warm as it can get and that it is in equilibrium with the liquid water. The ice, being crystalline, has a discreet melting point so it is either water or it is warm ice. If the ice is wet, it is less dense than ice that is cold enough that the water in contact with it freezes. That doesn't mean that warm ice must be wet ice. If the water is removed, the dry ice will be the same density as the wet ice of the same temperature. Having said that, it is possible that you want to contrast the density of frozen carbon dioxide to water ice. * Water ice has a density of 0.92 g/ml * Dry ice (CO2) has a density range from 1.4 to 1.6 g/ml
It depends if the ice cube your talking about have the bigger density than the water which is 1.00G/ML then it will sink .... TO get the density of the cube u have u have to divide the mass over the volume of the cube..
An ice cube with a density of 0.92 g/mL would float on water because the density of ice (0.92 g/mL) is less than the density of water (1.0 g/mL). This is due to the fact that ice is less dense than liquid water, causing it to float on the surface rather than sink.
42 mL
Milliliter (ml) is the same as cubic centimeter (cm3 ------------------------------- 64 ml of water will fit in a 64 cm3 cube There are 1000 millilitres in a litre and 1000 cm3 in a litre, so 1ml = 1cm3
36 ml
You will have roughly the same amount of ice as the amount of water you started out with, so probably about 5 mL of ice.
Temp is the same, the quantity of heat is not.
No, because ice has a density of .92g/ml allowing it to float over on water's 1g/ml density.
Exactly one. The 'mL' and the 'cc' are identical volumes.
Exactly one. The 'ml' and the 'cc' are identical volumes.
The volume is still 100 ml: the shape does not affect the volume.
50 ml of ice has lower entropy than 50 ml of water because the particles in ice are in a more ordered and structured arrangement than in water. This means that the ice system has lower molecular disorder and therefore lower entropy.