Question
How does the graph compared to the graph of ?
- The translation by 2 units left and 3 units down
- The translation by 2 units right and 3 units up
- The translation by 2 units left and 3 units up
- The translation by 2 units right and 3 units down
Hint:
A function in maths is a special relationship among the inputs (i.e. the domain) and their outputs (known as the codomain) where each input has exactly one output and the output can be traced back to its input.
The correct answer is: The translation by 2 units left and 3 units down
Here, the graph has a translation by 2 units left and 3 units down when compared to the graph of .
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
Related Questions to study
How does the graph compared to the graph of ?
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
How does the graph compared to the graph of ?
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
How does the graph compared to graph of ?
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
How does the graph compared to graph of ?
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
Write an expression for the function which has a translation by 3 units up of .
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
Write an expression for the function which has a translation by 3 units up of .
Transformation of functions is a unique way of changing the formula of a function minimally and playing around with the graph.
Find the minimum value of .
For minimum value, we check on extreme points
Find the minimum value of .
For minimum value, we check on extreme points
Find the minimum value of .
FOr minimum value, we check on extreme points
Find the minimum value of .
FOr minimum value, we check on extreme points