The lightbulb is an example of a technology that stemmed from pure scientific research on electricity and light. It is not a dependent variable in an experiment but rather a tangible application of scientific principles. The development of the lightbulb involved a series of exercises that led to its innovation and improvement over time.
Independent variables are controlled or manipulated by the researcher to determine their effect on the dependent variable. Dependent variables, on the other hand, are the outcome or response that is measured in an experiment. The independent variable causes a change in the dependent variable.
A dependent variable is a variable dependent on the independent variable. A control variable is something you want to try to keep the same. A dependent variable is something you measure. An independent variable is something you change.
A dependent variable is a factor in an experiment that is influenced by another factor. An example might help to clarify. You are performing an experiment in which you are observing how sunlight affects plant height. Plant height is the dependent variable because it is dependent upon how much sunlight the plant receives. Sunlight is an example of an independent variable. It is not influenced by anything in this experiment, but may be changed to observe its effect on the dependent variable. It is possible to have more than one dependent variable in an experiment, but only one independent variable.
independent variable. This variable is manipulated by the researcher to observe its effect on the dependent variable. The independent variable is the cause, while the dependent variable is the effect being measured in the experiment.
Dependant variable: the variable you measure in an experiment. It changes due to external factors affecting it. It can be time taken, or distance traveled... ect. Independant variable: the variable you change in an experiment. It can be the amount of time, or concentration of a substance... ect. Generally continuous variables, though not always.
In this experiment, exercise would be the independent variable as it is being manipulated to see its effect on motivation. Motivation would be the dependent variable, as it is the outcome that is being measured to see how it changes in response to the different levels of exercise.
The independent variable is the amount or type of exercise that the participants engage in. The dependent variable is the participants' weight measurements.
In a study examining the relationship between exercise and weight loss, the dependent variable would be the amount of weight lost by participants.
The dependent variable in this experiment would be the number of times the clothespin is squeezed in one minute. This is the variable that is being measured to determine the effect of exercise on grip strength.
The number of times the clothespin can be squeezed in 1 minute is the dependent variable in this experiment. It is the outcome that is measured and expected to change based on the independent variable, which in this case is the exercise.
The dependent variable is dependent on the independent variable, so when the independent variable changes, so does the dependent variable.
dependent variable
is dependent on the independent variable
Yes, the dependent variable is the variable which is measured.
The dependent variable is the outcome or response that is being measured in an experiment. It is what is affected by changes in the independent variable, which is the variable being manipulated. The dependent variable is dependent on the independent variable.
The independent variable is the variable that is altered by the scientist, and the dependent variable's value is dependent on the value of the independent variable.
Technically you can't control the dependent variable. However, by controlling and monitoring the Independent variable, (the variable which determines the dependent variable) you could lead the dependent variable to produce favourable results.