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Any of the following: increasing the amount of gas; increasing the temperature; reducing the volume.
Increasing temperature increases the rate of dissolution, though it can increase or decrease solubility at equilibrium.
The viscosity decrease increasing the temperature.
Increasing the temperature particles move faster.
Either the container would explode or the pressure would just keep increasing until the temperature stopped increasing
The temperature gradient.
Increasing the temperature of gas the volume increase.
Increasing the temperature of a solvent decreases the solubility of a gas Generally, increasing solvent temperature decreases the solubility of gases.
Increasing the temperature will cause the pH to decrease.
It doesn't. Increasing temperature adds energy.
increasing of temperature >> increasing concentration
Increasing the temperature of a solvent decreases the solubility of a gas Generally, increasing solvent temperature decreases the solubility of gases.
The resistance of metals rises with increasing temperature. The resistance semiconducting materials falls with increasing temperature.
Increasing the melt temperature the material can be transformed in a gas.
A semiconductor's resistivity decreases with increasing temperature. A metal's resistivity increases with increasing temperature.
the melting of polar ice caps is one proof that the world temperature is indeed increasing.
This is a poorly stated question. What do you mean by size? Volume or mass? By your question, if all other factors are constant, increasing the size, (whatever you mean by that) will have no effect. If you mean that you have a mass at a certain temperature and you double the mass at that temperature, then the total energy doubles.