The formula for calculating density is D=m/V. Density equals mass divided by volume. Calculate the volume of the cans, and then find the mass. Then find the mass of the coke and water in the cans. Subtract the mass of the cans so you're left with the masses of the coke and water. Put the masses and volumes into the formula.
Tin cans are resistant to water.
Tin cans themselves do not affect the amount of dissolved oxygen in water. However, if tin cans are oxidized or corroded, they may release metals into the water that could potentially impact oxygen levels and water quality. Proper disposal of tin cans is important to prevent any negative effects on water quality.
Typically, one can of concentrate is diluted with three cans of water.
No it expands, that's why soda cans sometimes explode if you freeze them.
You can get them in trash yards where they put all the cans, plastic, and trash in.
The crushed can will have a density that is quite a bit higher than the density of the can before it was crushed. Imagine a box of empty aluminum beverage cans. It won't weigh much. If those same cans are crushed, they will weigh the same, but take up a lot less space. The density of the cans can be increased by crushing them. The cans might be said to have a low bulk density before being crushed.
water cans in technology are cans which are used in the technological field.These are cans.Technology is very import in the operation of activities which reqiure the use of cans.
The 12oz in 12oz can refers to fluid ounces, i.e. volume. Ton refers to weight. The two units are not directly convertible. However, if you assume that the cans contain pure water, with a density of 1 gm/ml, and you ignore the mass of the cans, then you could say that each can weighs 355 grams. A ton is 909,091 grams, so there are 2,561 cans in a ton, again, only considering the volume of pure water. A proper computation would require knowledge of the density of the fluid, as well as the mass of the empty can.
Tin cans are resistant to water.
Both aluminum and steel have densities higher than that of water and ordinarily would sink; if the can was empty and thus (like a boat) able to displace more mass in water (by virtue of its volume) than its own weight, it could then float. However, if it was filled with water, its overall density considering both the metal and the container's content, would be higher than water, and it would sink. The fact that the water was distilled would only marginally affect buoyancy; distilled water is about 2-5% less dense than salt water.
It is! You just don't see it that often. Perrier, a mineral water, is available in cans.
yes. test it in water. soda has a higher density than water. my science class did it. diet coke floats and regular coke sinks. (: it's pretty fascinating.
Tin cans themselves do not affect the amount of dissolved oxygen in water. However, if tin cans are oxidized or corroded, they may release metals into the water that could potentially impact oxygen levels and water quality. Proper disposal of tin cans is important to prevent any negative effects on water quality.
Yes, water can be stored in aluminium cans. However, it is important to ensure that the cans are lined with a food-grade coating to prevent any reaction between the water and the aluminium, which can affect the taste and quality of the water.
Washing Soda Cans with kitchen dishwasher liquid or soap water or chlorinated water should help kill or washaway bacteria from Soda cans. - Neeraj Sharma
Aluminum cans are more valuable than plastic bottles.
On average, a 55 gallon drum filled with crushed aluminum cans can weigh around 300-400 pounds. The weight can vary depending on factors such as the density of the crushed cans and the specific type of aluminum being recycled.