10.0gCl*1 mole Cl*22.4Cl L/ 35.45g Cl* 1mole Cl=6.32L Cl
If pressure is kept constant, and we assume ideal gas behaviour for chlorine, then its volume at 600 K would be 50.0 ml. Charles law of gases states that the volume of a gas kept at constant pressure, varies directly proportional to its absolute temperature. Of course, this result is not completely exact since real gases tend to deviate from ideal behaviour. But at low pressures the result is usually a good approximation.
The volume of the balloon would decrease. The pressure of the water would press inward on the balloon and cause it to shrink in volume.
System volume of a gas is directly related to pressure, volume, amount of molecules, and the gas constant. When the balloon is moved to cooler air it loses heat. The loss in temperature results in a contraction of volume.
Chlorine is a gas. Its density depends on pressure, temperature and volume of the container.
all you need to do is predict what you think the answer is. this is easy
Helium is less dense than air, which is why the helium-filled balloon floats when you let it go.
volume decreases considering the pressure is constant
the balloon's volume would decrease!!!
the balloon's volume would decrease!!!
the balloon's volume would decrease!!!
The volum is similar, the mass is different.
Polar gases would have some mutual attraction and there by observe a decrease in volume so the volume of the balloon would decrease.
6.3 L
Because the helium is lighter then the sorrounding airBecause the balloon PLUS the gas in it weights less than the volume of air displaced by the balloon.
18
The volume would increase. Charles law
If the volume of gas in the balloon remains constant, then an increase in temperature would result in an increased gas pressure in a balloon.That result can be achieved in three ways:1). Pump more gas into the balloon.or2). Heat the balloon.or3). Surround the balloon completely with something and squish it down into a smaller volume.The volume is increased.