pressure
Assuming that the questioner meant "experiment" where "experince"* was written, the volume of gas is the dependent variable and temperature is the independent variable.*The French word for "experiment" is "experience".
VolumeThe independent variable is the one you determine, and the dependent variable is the one you measure. In this case, you choose the temperature, and measure the volume.
volume or temperature
In Charles's Law experiments involving a balloon, the independent variable is the temperature of the gas inside the balloon. As the temperature increases, the volume of the gas also increases, assuming the pressure remains constant. This relationship illustrates how gas expands when heated, demonstrating the principles of Charles's Law.
Yes, an independent/dependant relationship to two things would be heat/volume when working with gas. The volume of object increases as an object gets hotter however an object does not get hotter if the volume increases therefore the volume is dependant on the heat, this makes the volume the dependant variable. Therefore the heat has to be the independent variable.
The independent variable in this experiment is the temperature. This is the variable that is manipulated or controlled by the researcher to observe its effect on the volume of gas.
The volume of gas
Assuming that the questioner meant "experiment" where "experince"* was written, the volume of gas is the dependent variable and temperature is the independent variable.*The French word for "experiment" is "experience".
VolumeThe independent variable is the one you determine, and the dependent variable is the one you measure. In this case, you choose the temperature, and measure the volume.
The independent variable of any object depends on the experiment being performed on said object. Do distinguish whether volume or mass is the independent variable, we must first know what the experiment is. Remember that an independent variable does not change when the other factors of an experiment (the dependent variables) do change. An independent variable remains constant.
The dependent variable in this experiment is the volume of gas. This is because it is the outcome that is being measured and is expected to change based on the independent variable, which is the temperature.
volume or temperature
temperature, pressure , volume, are independent density, viscosity, etc are dependent Properties of mater are always dependent of independents. as (dependent) density , viscosity , mass density , phase conduction , etc always vary when we change independents .(temperature, pressure , volume) so you can understand dependent & in dependent
In Charles's Law experiments involving a balloon, the independent variable is the temperature of the gas inside the balloon. As the temperature increases, the volume of the gas also increases, assuming the pressure remains constant. This relationship illustrates how gas expands when heated, demonstrating the principles of Charles's Law.
Independent variable is one that does not vary with respect to other variables while other variables called the dependent variables varies with the variation of the independent variable. for ex: if 'x' is is an independent variable that represents say 'time' lets take another variable the dependent like volume(v) . now we say the volume (v) varies with respect to time and not the other way. so, here 'x' is independent variable & 'v' is dependent variable
Yes, an independent/dependant relationship to two things would be heat/volume when working with gas. The volume of object increases as an object gets hotter however an object does not get hotter if the volume increases therefore the volume is dependant on the heat, this makes the volume the dependant variable. Therefore the heat has to be the independent variable.
The volume of gas