In a mathematical equation or relationship, the variables x and y can be dependent on each other, independent of each other, or one can be dependent on the other. The direction of dependence between x and y is determined by the specific equation or context in which they are used. For example, in the equation y = 2x, y is dependent on x because its value is determined by the value of x. Conversely, in the equation x = y^2, x is dependent on y as its value is determined by the value of y.
The Dependent Variable (Y).The dependent variable. When two variables have a relationship with each other (independent and dependent), it is called a function. Usually, the independent variable is x and the dependent variable is y, although this can be switched around depending on the data.
The derivative of sin (x) is cos (x). It does not work the other way around, though. The derivative of cos (x) is -sin (x).
Any variable can be declared as the independent variable, then the other would be the dependent variable. However, it is quite common to arbitrarily define y as the dependent variable - a variable that depends on x.
If you believe that one of the variables depends on the other then the dependent variable should go on the y axis. If they are dependent on each other (or both dependent on something else) or if they are independent then do whatever you like.
The independent variable is the one that you control, and is plotted on the horizontal (x-) axis. The dependent variableis the one that changes according to your choice of x-value. It depends on the value of x. The dependent variable is plotted on the vertical (y-) axis.
No, but take for example the equation { y=x^2 +5 } y is dependent on x and x is independent, nothing you do to it, rearrange whatever will change the fact that x is independent and y is dependent
The Dependent Variable (Y).The dependent variable. When two variables have a relationship with each other (independent and dependent), it is called a function. Usually, the independent variable is x and the dependent variable is y, although this can be switched around depending on the data.
The derivative of sin (x) is cos (x). It does not work the other way around, though. The derivative of cos (x) is -sin (x).
Any variable can be declared as the independent variable, then the other would be the dependent variable. However, it is quite common to arbitrarily define y as the dependent variable - a variable that depends on x.
Yes, indeed the X-axis is the independent variable.And as such, the X-axis is the dependent variable.ILOLU ANSWERY= dependent X= independentthe dependent depends on independent variable
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
If you believe that one of the variables depends on the other then the dependent variable should go on the y axis. If they are dependent on each other (or both dependent on something else) or if they are independent then do whatever you like.
The "Cherry" is in a womans vagina and can only be popped if she still has her virginity, and after she looses it to you, her "cherry pops" -x-x-x- I have heard it used the other way around
The independent variable is the one that you control, and is plotted on the horizontal (x-) axis. The dependent variableis the one that changes according to your choice of x-value. It depends on the value of x. The dependent variable is plotted on the vertical (y-) axis.
y is usually the dependent variable and x the independent.
the dependent variable is the y-value. the dependent variable means it relys on another variable for its answer. without the other variable this variable would not exist. the independent variable is the x-value. the independent variable can exist on its own without the dependent variable. i mention x-values and y-values... this is only if you are using an x and y value for your application. there are other applications... like speed... where the dependent variable for speed would be time and the independent variable for speed would be distance. and for acceleration the dependent variable would be speed and the independent variable would be distance.
It depends on the context in which x is being considered. In statistics, if x represents the independent variable, then it is considered independent. However, if x represents the dependent variable, then it is considered dependent.