when comparing linear quadratic cubic and exponential functions, what key feature do all four of the function types have?
3 answers
All four function types (linear, quadratic, cubic, and exponential) have a key feature of being mathematical representations of relationships or patterns between variables. They can all be used to model real-world phenomena and provide insights into the behavior of the variables involved.
is it
A-The range of all four function types is all real numbers.
B-The domain of all four function types is all real numbers.
C-The minimum value of all four function types is (0, 0)
D-The x-intercept of all four function types is (0, 0)
A-The range of all four function types is all real numbers.
B-The domain of all four function types is all real numbers.
C-The minimum value of all four function types is (0, 0)
D-The x-intercept of all four function types is (0, 0)
B - The domain of all four function types is all real numbers.
The domain refers to the set of all possible input values for a function. For linear, quadratic, cubic, and exponential functions, the domain encompasses all real numbers. This means that you can input any real number into these functions, and they will produce a valid output.
The other options are not correct.
A - The range of all four function types can vary depending on the specific function and its parameters.
C - The minimum value of a function can vary for each type. It may not necessarily be (0, 0).
D - The x-intercepts (or the points where the graph of the function crosses the x-axis) can also vary for each function type and are not always located at (0, 0).
The domain refers to the set of all possible input values for a function. For linear, quadratic, cubic, and exponential functions, the domain encompasses all real numbers. This means that you can input any real number into these functions, and they will produce a valid output.
The other options are not correct.
A - The range of all four function types can vary depending on the specific function and its parameters.
C - The minimum value of a function can vary for each type. It may not necessarily be (0, 0).
D - The x-intercepts (or the points where the graph of the function crosses the x-axis) can also vary for each function type and are not always located at (0, 0).