Raphael graphed the functions [tex]g(x)=x+2[/tex] and [tex]f(x)=x-1[/tex]. How many units below the [tex]y[/tex]-intercept of [tex]g(x)[/tex] is the [tex]y[/tex] intercept of [tex]f(x)[/tex]?

Question

GinnyAnswer · Answer

Find the y-intercept of g ( x ) by setting x = 0 : g ( 0 ) = 2 . 
 Find the y-intercept of f ( x ) by setting x = 0 : f ( 0 ) = − 1 . 
 Calculate the difference between the y-intercepts: 2 − ( − 1 ) = 3 . 
 The y-intercept of f ( x ) is 3 units below the y-intercept of g ( x ) , so the answer is 3 ​ . 
 
 Explanation 
 
 Understanding the Problem We are given two linear functions, g ( x ) = x + 2 and f ( x ) = x − 1 . We need to find the difference between their y -intercepts. The y -intercept is the point where the graph of the function intersects the y -axis, which occurs when x = 0 . 
 
 Finding the y-intercept of g(x) To find the y -intercept of g ( x ) , we set x = 0 and evaluate g ( 0 ) : g ( 0 ) = 0 + 2 = 2 
So, the y -intercept of g ( x ) is 2. 
 
 Finding the y-intercept of f(x) To find the y -intercept of f ( x ) , we set x = 0 and evaluate f ( 0 ) : f ( 0 ) = 0 − 1 = − 1 
So, the y -intercept of f ( x ) is -1. 
 
 Calculating the Difference Now we need to find how many units below the y -intercept of g ( x ) is the y -intercept of f ( x ) . This is the difference between the y -intercepts: g ( 0 ) − f ( 0 ) = 2 − ( − 1 ) = 2 + 1 = 3 
The y -intercept of f ( x ) is 3 units below the y -intercept of g ( x ) .

Examples 
 Understanding the y-intercept of a function is crucial in many real-world applications. For example, in a linear cost function C ( x ) = m x + b , where x is the number of units produced, b represents the fixed costs (the cost when no units are produced, i.e., x = 0 ). Similarly, in a linear depreciation model V ( t ) = m t + V 0 ​ , where t is time, V 0 ​ represents the initial value of an asset. Knowing the y-intercept helps in understanding initial conditions or fixed values in various scenarios.

Anonymous · Answer

The y-intercept of g ( x ) is 2, while the y-intercept of f ( x ) is -1. The difference between these y-intercepts shows that the y-intercept of f ( x ) is 3 units below the y-intercept of g ( x ) . Therefore, the answer is 3 units. 
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Raphael graphed the functions [tex]g(x)=x+2[/tex] and [tex]f(x)=x-1[/tex]. How many units below the [tex]y[/tex]-intercept of [tex]g(x)[/tex] is the [tex]y[/tex] intercept of [tex]f(x)[/tex]?

Answer (2)

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