A chemical supply firm can sell you chloroform. It comes in barrels, 175-gallon totes and tank cars. The government banned the sale of small amounts of it in 1976 because criminals were using it to render victims unconscious, but it's one of the ingredients in Teflon so if you are making things out of it, you can get it.
Solubility is defined as the ability of an chemical substance(solute) to dissociate in inside another chemical substance (solvent) to form a homogeneous solution. Thus , the solute and the solvent must be 2 different chemical substances. In this case, both substances are similar. So by mixing them together, we cannot measure solubility.
Yes, so long as they are of legal age to purchase alcohol.
It is difficult, at best, to purchase chloroform as an individual. If you represent a school, university, or business/laboratory that legitimately uses this substance, you can shop at chemical supply sites such as science.com. Keep in mind, though, that since the government restricts the purchase of chloroform to insure that it is used only for legitimate purposes, it might be tough to you get your hands on it. Even if you do, the penalty for possession in a federal court is severe!
10g of chloroform has a greater volume than 10g of hexane because chloroform has a higher density than hexane. Density is a measure of mass per unit volume, so for the same mass, the substance with the higher density will occupy less volume.
No, glucose is not soluble in chloroform. Chloroform is a non-polar solvent, and glucose is a polar compound, so they do not mix well together.
Chloroform is denser than water, so it will sink in water.
No, starch is not soluble in chloroform. Starch is a polar molecule, while chloroform is non-polar, so they are not able to dissolve in each other.
DNA is soluble in chloroform more than water. So we use it.
yes
The wounded Confederate soldier had to have his leg amputated, so the doctor gave him chloroform to put him to sleep.
No, chloroform boils at a temperature of 61.2°C, so it cannot be boiled at 0°C.