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Using the Celsius temperature scale, it is not correct. But doubling the temperature using the Kelvin temperature scale, where zero is the absolute minimum gegree possible, will double pressure . p1/T1=p2/T2=constant.
Might be possible that the solubility may increase of the solute in the solvent and its concenteration may changes.
There are a number of possible results from the increase in temperature and pressure of a gas held at a constant volume. In some cases, the container will fail and there will be an explosion (this is what happens with bombs, for example). But the container may be strong enough that it does not fail. In that case, under conditions of high temperature and pressure, you might see increased chemical activity in the gas in question, perhaps new compounds would be formed, but that would depend upon the gas in question, as well as the specific temperature and pressure that you reach. At sufficiently high temperature and pressure you can also get nuclear reactions. The higher the temperature and pressure become, the wider the range of possible results.
from naturally ocurring or laboratory-made elements, it is possible to make hundreds of thousands of_______________
possibly. For example, when you raise an 1-kg object one meter up very slowly, the potential energy of the object is increased by g [Joules], where g = gravity constant = 9.8 m/s2. The temperature of the object has not changed.
Yes, it is possible.
Atmospheric engines, or 'Stirling' engines, can make use of waste or naturally occuring heat differences, to work.
This is possible in a closed system.
A solution is saturated when it is no longer possible to dissolve an additional quantity of solute, at constant temperature.
Isothermal is where pressure and/or volume changes, but temperature remains constant. Pressure, Volume, and Temperature are related as: PV = nRT =NkT for an ideal gas. Here, we see that since a balloon's volume is allowed to change, its pressure remains relatively constant. Whenever there is a pressure change, it'll be offset by an equivalent change in volume, thus temperature is constant.
This is a very broad question since there are many different types of homeostasis. It is possible to maintain a constant temperature, or a constant location, or a constant pH, or a constant velocity, or a constant luminosity, etc. etc. Without knowing what parameter you are concerned about, there is no point in describing a method of obtaining homeostasis.
Using the Celsius temperature scale, it is not correct. But doubling the temperature using the Kelvin temperature scale, where zero is the absolute minimum gegree possible, will double pressure . p1/T1=p2/T2=constant.
Might be possible that the solubility may increase of the solute in the solvent and its concenteration may changes.
No, not at all possible. But constant speed with changing velocity is possible.
ionosphere
Yes it is possible, for example when water freezes there is a point when the temperature remains constant however energy is released as the water condenses.
A thermos would be better. They are built for insulation to keep temperature as constant as possible for as long as possible. A soda can is just a thin sheet of metal, and heat will be able to flow in and out of the can quite easily.