Want this question answered?
No. They can not.
F=mg where g is the gravitational constant, and the independent variable in force calculations
Well, they're both variables.
No they are not the same. A constant variable keeps going at a constant rate.
The independent variable is the thing you change, the dependent variable is the variable that changes because of the independent variable, it could also be referred to as the effect, and the control group is the constant, the thing that stays the same and the variable that you compare your results to.
1.49 is a constant: there is NO variable - independent or dependent!
The only thing that should differ between experimental treatments is the variable being tested, also known as the independent variable. All other factors should be kept constant to ensure that any observed effects can be attributed solely to the variable being tested.
Experimental variables are factors being tested or measured in a scientific experiment. They can be categorized as independent variables (manipulated by the experimenter), dependent variables (respond to the changes in the independent variable), and controlled variables (kept constant to prevent interference).
independent variables :):):):):):):):):):):):)
No. They can not.
because other conditions could affect the dependent variable
Control
F=mg where g is the gravitational constant, and the independent variable in force calculations
The factor that is kept constant in an experiment is called the controlled variable. It is important to keep this variable constant to accurately measure the effect of the independent variable on the dependent variable.
The control, the constant, the independent variable, and the dependent variable.
Well, they're both variables.
A constant is something that will ALWAYS remain the same in your experiment. For instance, the materials you use and the unit of measurements you use are examples of constants. An independent variable changes with the experiments.