Independent Variable in Chemistry

Independent Variable in ChemistryI'm sure that you're already aware of the independent variable in chemistry and that's the different forces. It's a measurement of the way one of the bonds in the molecule changes during the process of chemical reaction. Let's take an example to better explain. Let's say that there is a gas containing nitrogen, carbon and hydrogen, it's going to boil.All the different gases in the environment in different temperatures, pressures and densities. When a gas reacts with oxygen it boils. When the molecule reacts with another molecule it heats up the gas so it explodes in flames, the same goes for the fire extinguisher.As you can see the independent variable is somewhat limited to the temperature, pressure and density of the surroundings. The variable you want to be looking at though is the rate of change of the force. The way this is done is by using some type of computer program. If you could apply the force in your palm to a piece of paper then you have a variable that can't be controlled. But if you had a program that recorded the force when you applied it, it would then give you a number that relates to the independent variable.In reality we aren't able to determine the forces directly. We can tell the difference between them by the times it takes to move or react. Think about the flame once it has become hotter and moving faster.It begins to burn from the outside in, not as quickly as it did before, so it's burning from the inside out. The mass flow is what gives us this flow of gas in that. So, if you're interested in the rate of the force you would measure the mass flow.Once you know how long it takes for a chemical reaction to occur and then take this time variable and apply it to the independent variable, you have the two variables you need. Now it doesn't really matter what the independent variable is, what matters is how the independent variable is related to the independent variable. In chemistry you can calculate the per centage of change of the force that the independent variable is going to have.This means that if the independent variable is going to be a change in the temperature of the surrounding gas, it will have a value that is proportional to the temperature of the surrounding gas. Also you can figure out the rate of the change of the independent variable, which is related to the rate of the change of the independent variable.So knowing the values of these two variables, you can then measure the change of the independent variable. Now you may think I'm nuts and why on earth would I want to do this, but it actually works out very well. If you want to learn more about Chemistry or use it in your professional life, you should definitely look into understanding the independent variable.