which gas law applied on rotary vaccum distillation
The spray cans and bottles work on Boyle's law. This law states that pressure of gas is inversely proportional to its volume.
boyles law is the status in which fixed amount of gas at given temperature and inversly proportional to applied pressure
Not true. It applies to real gases that are exhibiting ideal behavior. Any gas that is not 'close' to its boiling and is at a 'low' pressure will behave like an ideal gas and Boyle's Law can be applied. Remember there is no such thing as an ideal gas, so when Boyle did his experiments and came up with his law he was using a real gas, probably just air.
boyle's law holds good in this case and the gas experiences decrease in volume....provided the gas is not in a container with fixed dimensions! its volume will decrease
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
The spray cans and bottles work on Boyle's law. This law states that pressure of gas is inversely proportional to its volume.
The ideal gas law is applied in the autoclave, which relates the pressure, volume, and temperature of a gas. In autoclaves, steam is used to create high pressure and high temperature conditions to sterilize equipment and materials by killing bacteria, viruses, and spores. The principle involved is that increasing the pressure and temperature inside the autoclave allows for more effective sterilization by denaturing proteins and disrupting cell structures.
boyles law is the status in which fixed amount of gas at given temperature and inversly proportional to applied pressure
boyles law is the status in which fixed amount of gas at given temperature and inversly proportional to applied pressure
In point of fact, vacuum tubes do obey Ohm's law. Everything electrical obeys Ohm's law. The reason vacuum tubes don't appear to obey the law is that not every consideration takes into account the fact that vacuum tubs have dynamicresistance. Ohm's law, as applied to "pure" ohmic resistors, requires constant resistance, which no material, no matter how good, exhibits. In the real world, you have to consider that resistance can vary along with voltage and current, and this "complicates" things.
of course it does. it is a gas, is it not?
Not true. It applies to real gases that are exhibiting ideal behavior. Any gas that is not 'close' to its boiling and is at a 'low' pressure will behave like an ideal gas and Boyle's Law can be applied. Remember there is no such thing as an ideal gas, so when Boyle did his experiments and came up with his law he was using a real gas, probably just air.
boyle's law holds good in this case and the gas experiences decrease in volume....provided the gas is not in a container with fixed dimensions! its volume will decrease
boyle's law holds good in this case and the gas experiences decrease in volume....provided the gas is not in a container with fixed dimensions! its volume will decrease
Partial pressure of a gas applied to respiration is explained by Dalton's Law. It states that in every mixture of gas, each individual gas has its own pressure that makes up the total pressure of gas.
Dalton's Law of Partial Pressures is used everyday to determine how much of one gas is present in a mixture of gases.....maybe not YOUR "everyday" but someones
A:Sharia can not be applied in countries that do not recognise sharia law. In dual-law nations, it can only be applied where the secular courts accept its precedence.