the output of a function; a variable whose value depends on the value of the input.
The dependent variable is dependent on the independent variable, so when the independent variable changes, so does the dependent variable.
It is calibrating.
the dependent variable are the things that stay the same
Quantity x+4 times quantity x+1.
the independent variable controls the dependent variables
price is dependent or independent?quantity
Yes it is.
Non-examples of a dependent quantity include constants or independent variables that do not change in response to other factors. For instance, the number of apples in a basket remains constant regardless of the weather, or the price of a product that does not fluctuate based on demand. In these cases, the quantities do not rely on other variables, thus illustrating what a dependent quantity is not.
an extensive property Examples include mass and volume.
A dependent quantity is a variable that is determined by another variable, known as the independent variable. The dependent variable's value depends on the value of the independent variable. This relationship is often represented in a mathematical or statistical model.
In this situation, the independent quantity is the number of hours Bill works per week, while the dependent quantity is his total earnings. The reasonable domain for the independent quantity is from 0 to 40 hours (0 ≤ hours ≤ 40), and the range for the dependent quantity, calculated as earnings = 12 × hours, would be from $0 to $480 (0 ≤ earnings ≤ $480).
Limiting reactant
The variable that you can manipulate in the experiment is always the independent variable. The quantity that changes as a result of your manipulation is the dependent variable.
A rock's color is dependent on the minerals present and quantity of those minerals.
There is no such quantity. Time is often cited as an example but it is always the dependent variable when studying the periodicity of pendulums, or waiting time in queues.
In mathematics, Ek typically represents the kinetic energy of a system, which is the energy an object possesses due to its motion. This quantity is dependent on the object's mass and velocity.
It is the quantity that is controlled. The dependent variable is the one that changes accordingly: it depends on the first one.