The volume of any solid, liquid, or gas will change with changes in temperature.
Yes. Due to the Law of the Conservation of Matter, anything combined with water will increase in volume, because water itself has volume, which is not lost by combining water with anything else.
The particles in the balloon slow down as the temperature decreases cause it to deflate
Yes, it will decrease when the same amount (n) of gas is pressurized: Combined Gas law: V = (n.R) * T / p (This is certainly true when done isothermically, else it also depends on temperature)
There are three variables in gas work that go into volume: amount of gas, pressure of gas, temperature of gas. If we double the amount of gas - the moles - and maintain the temperature and pressure, the volume must double.
In nuclear reactions the atom itself changes while molecules and/or structural organisation of atoms do in chemical and physical changes.
Three changes are probably global temperature change(Ice Age,NOW), and...nothing else. This is most likely the only environmental change that affects evolution.
ask someone else :)
specific heat
The force that changes a rock's shape or volume is called stress. Stress can be caused by factors such as pressure from above, tectonic plate movement, or temperature changes, leading to deformation or fracturing of the rock.
pressure, temperature, possibly somethign else
If the amplitude of a wave changes, the energy and intensity of the wave also change.
it means when something turns into something else, it changes.
Yes. Due to the Law of the Conservation of Matter, anything combined with water will increase in volume, because water itself has volume, which is not lost by combining water with anything else.
The particles in the balloon slow down as the temperature decreases cause it to deflate
it changes the landform by moving the stuff that is there and moving it somewere else
Aristotle believed that all change is caused by something else, and that everything that changes has a cause or reason for that change.
Yes, it will decrease when the same amount (n) of gas is pressurized: Combined Gas law: V = (n.R) * T / p (This is certainly true when done isothermically, else it also depends on temperature)