How could you check to see if the point (5, 6) is the solution to the Linear System of equations?(1 point)
Responses
Substitute 5 in for x and 6 in for y in one of the equations to see if the equation is true.
Substitute 5 in for x and 6 in for y in one of the equations to see if the equation is true.
Substitute 5 in for x and 6 in for y in both of the equations to see if both equations are true.
Substitute 5 in for x and 6 in for y in both of the equations to see if both equations are true.
Substitute 6 in for x and 5 in for y in both of the equations to see if both equations are true.
Substitute 6 in for x and 5 in for y in both of the equations to see if both equations are true.
Substitute 6 in for x and 5 in for y in one of the equations to see if the equation is true.
The correct answer is: Substitute 5 in for x and 6 in for y in both of the equations to see if both equations are true.
To check if the point (5, 6) is a solution to the Linear System of equations, you need to substitute 5 in for x and 6 in for y in both of the equations to see if both equations are true.
To check if the point (5, 6) is a solution to a linear system of equations, you need to substitute the values of x and y from the point into the equations and see if the equations are true.
You have two equations in the system. Let's call them Equation 1 and Equation 2.
To check if (5, 6) is a solution:
1. Substitute 5 in for x and 6 in for y in Equation 1:
If the equation becomes true, then proceed to the next step.
If the equation is false, (5, 6) is not a solution to the system.
2. Substitute 5 in for x and 6 in for y in Equation 2:
If the equation becomes true, then (5, 6) is a solution to the system.
If the equation is false, (5, 6) is not a solution to the system.
In summary, you need to substitute the values of x and y into both equations separately to check if both equations are true.