The domain. It need not be the "independent variable" since the variables could be interdependent.
Resembling, represented by, or consisting of a line or lines. Examples in maths: linear equation: A linear equation is an algebraic equation in which each term is either a constant or the product of a constant and (the first power of) a single variable. Typical linear equation:
A linear equation is when each term in the algebraic equation is either a constant or the product has a single variable and a constant.
"Non-linear sequence" is a generic term for just about ANY sequence, each of which will have a different equation.
Linear means that the largest power(index) in the expression, equation, inequality etc, =1
The domain. It need not be the "independent variable" since the variables could be interdependent.
Resembling, represented by, or consisting of a line or lines. Examples in maths: linear equation: A linear equation is an algebraic equation in which each term is either a constant or the product of a constant and (the first power of) a single variable. Typical linear equation:
A linear equation is when each term in the algebraic equation is either a constant or the product has a single variable and a constant.
That would be a linear equation.
To identify the slope in a linear equation, rearrange the equation into the form y = mx + b. The term m is the slope.
No. In the variable x, alone, it is linear. In the variable y, alone, it is linear. But taken together, in x and y, you have a term which contains xy - that is, a term in which the powers of the unknowns add to 2. So the equation is not linear.
"Non-linear sequence" is a generic term for just about ANY sequence, each of which will have a different equation.
a linear equation is an algebraic equation in which each term is either a constant or the product of a constant and a single variable.
1st = The quadratic term. 2nd = The linear term. 3rd = The constant term.
Linear means that the largest power(index) in the expression, equation, inequality etc, =1
This is a linear equation. This is because the x term is only raised to the power one if it had contained an x^2 phrase it would have been quadratin, and if it had contained an n^x term it would have been exponential.
This is called an incomplete quadratic equation because there is no linear term. aX2 +( bX)+ c = 0 The middle term is not there, but this is quite solvable.