A graph includes the ordered pair (2, 4). Write two different rules that would be possible for this graph. Explain how you found your answer.

Question

calculista · Answer

we know that An ordered pair is used to locate a point on a coordinate grid. The first number in an ordered pair is the x-coordinate , and the second number in an ordered pair is the **y-coordinate. **
In this problem, the ordered pair is ( 2 , 4 ) so the x-coordinate is equal to 2 the y-coordinate is equal to 4 
 therefore 
 Rule N 1 The y-value is 2 times the x-value 
 Rule N 2 The y-value is 2 greater than the x-value 
 Both are possible because their solutions include the ordered pair listed

Anonymous · Answer

Answer with explanation: 
 It is given that , graph includes the ordered pair (2,4). As both "x coordinate and y coordinate" are positive , so the point will lie in first quadrant. 
 The Rules which seems possible for this graph. 
 1. The sum of Abscissa and ordinate is 6, and ordinate is twice the abscissa. 
 ** 2. The Difference of Abscissa and ordinate or ordinate and abscissa is | 2 |.** 
 →Intuitively thinking about the point (2,4) and thinking what are different possibilities that can be possible with this point i wrote these two sentences about the graph. 
 Also, it is not given that which kind of graph it is , linear , curve etc.

Anonymous · Answer

The ordered pair (2, 4) could be represented by different equations. A possible linear rule is y = 2 x , while a quadratic rule could be y = x 2 . Both equations satisfy the condition of having the ordered pair as a valid solution. 
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A graph includes the ordered pair (2, 4). Write two different rules that would be possible for this graph. Explain how you found your answer.

Answer (3)

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