The cork over the bottle's neck is going too be pushed by how much air is in the bottle.
nothing happens
The pressure at the bottom of the bottle is the greatest. It decreases as the level comes up and is the least at the top.
If the bottle is from glass will burst soon; the plastic container will be melted.
bottle whistle
If heated to and above boiling point the pressure in the bottle would begin to rise. Depending on how much it is heated it might either stay like that, or the increased pressure might cause the bottle to burst.
Bottom and top respectfully OR Greatest closest to the center of the Earth.
In the first place the water in the bottle would keep the temperature of the plastic down preventing it from burning and leaking, The same as you would do by boiling water over a flame in a paper cup, However the water in the bottle would heat up and eventually the pressure inside the bottle would burst it like a balloon.
The answer will depend the volume of the bottle and the temperature and pressure. Assuming that the experiment is carried out at normal temperature (20 deg C) and one atmospheric pressure, the density of water is 0.9982071 grams per cm3. So, if the volume of the water in the bottle is V cm3 = V cc or V ml, then the mass of the filled bottle is 25 + V*0.9982071 grams.
Filled. For example, I filled the bottle.
No it would be lighter Imagine a 2 party balloons, one filled with helium and one jUst blown up Which one weighs less?
We have to assume that the lid does not allow air to enter the plastic bottle. When the water is hot, the air above the water is also hot. When the air cools down, its volume decreases significantly. This, in turn, causes the pressure in the bottle to decrease such that atmospheric pressureis greater than the pressure inside the bottle. This causes the bottle to contract since the force exerted on the bottle due to atmospheric pressure is greater than the force exerted on the bottle due to the air pressure inside the bottle. The volume of the bottle decreases until the pressure of the air inside becomes equal to atmospheric pressure. The changes in volume, pressure and temperature can be explained by the equation pV=nRT, where p:pressure of gas V:Volume occupied by gas n:number of moles of gas R:molar gas constant T:Thermodynamic temperature of the gas
The pressure build up is too much for the thin glass to handle.