Question
To "solve a system" means _____________.
- Find the point that satisfies one of the equations.
- Find the point(s) that satisfies all the equations in the system.
- Rewrite the equations in "y =" form.
- Rewrite the equations in standard form.
Hint:
the question is to “solve a system “ means __. When ever system is comes in the question we always solve the equations.
The correct answer is: Find the point(s) that satisfies all the equations in the system.
To solve a system means to find the point(s) that satisfies all the equations in the system.
Here we have to find the to “solve a system “ means __.
Solve the system means the we you have given two or more equations then you have to find the solution for the equation.
Finding a solution means finding the number which satisfy the equations , which makes all equations true simultaneously.
Therefore , “solve a system” means find the points that satisfies all the equations in the system.
The correct answer is find the point(s) that satisfies all the equations in the system.
Solve the system means find the point and when we put the point into that equation then its satisfy the equation which means the result comes zero.
Related Questions to study
The first step in finding the solution with elimination is ________________
7x + 5y = -9
-3x - 5y = 5
In this question, we have to find the first step but the equation is solved by the elimination method. In elimination method you have two equation. we have to multiply in both equation by number which is lowest common multiple for one of the variable. Then perform the addition or subtraction to eliminate the variable and substitute the that variable in equation and find the other equation.
The first step in finding the solution with elimination is ________________
7x + 5y = -9
-3x - 5y = 5
In this question, we have to find the first step but the equation is solved by the elimination method. In elimination method you have two equation. we have to multiply in both equation by number which is lowest common multiple for one of the variable. Then perform the addition or subtraction to eliminate the variable and substitute the that variable in equation and find the other equation.
These two lines intersect at ______.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
These two lines intersect at ______.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
The two lines meet at ______________
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
The two lines meet at ______________
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Find the solution.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Find the solution.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Find the solution to this system of equations.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Find the solution to this system of equations.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
These two lines intersect at _____.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
These two lines intersect at _____.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
The two lines intersect at _____________
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
The two lines intersect at _____________
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Find the solution to this system of equations.
When the lines are parallel, there are no solutions. As they do not intersect anywhere, they do not share a common point.
Find the solution to this system of equations.
When the lines are parallel, there are no solutions. As they do not intersect anywhere, they do not share a common point.
This system has _____ solutions
When the lines are parallel, there are no solutions. As they do not intersect anywhere, they do not share a common point.
This system has _____ solutions
When the lines are parallel, there are no solutions. As they do not intersect anywhere, they do not share a common point.
When you graph the exact same equation twice,
An infinite solution can be produced if the lines are coincident and they must have the same y-intercept. The two lines having the same y-intercept and the slope, are actually the exact same line. In simpler words, we can say that if the two lines are sharing the same line, then the system would result in an infinite solution.
When you graph the exact same equation twice,
An infinite solution can be produced if the lines are coincident and they must have the same y-intercept. The two lines having the same y-intercept and the slope, are actually the exact same line. In simpler words, we can say that if the two lines are sharing the same line, then the system would result in an infinite solution.
If a system of equations has no solution, the graph look like,
When the lines are parallel, there are no solutions, As they do not intersect anywhere, they do not share a common point.
If a system of equations has no solution, the graph look like,
When the lines are parallel, there are no solutions, As they do not intersect anywhere, they do not share a common point.
Buzz graphed two lines in order to find the solution to a given system of equations.
Find the solution.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Buzz graphed two lines in order to find the solution to a given system of equations.
Find the solution.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
These two lines intersect at _____.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
These two lines intersect at _____.
When two or more lines cross each other in a plane, they are called intersecting lines. The intersecting lines share a common point, which exists on all the intersecting lines, and is called the point of intersection.
Identify the number of solutions for the given graph.
When the lines are parallel, there are no solutions, As they do not intersect anywhere, they do not share a common point.
Identify the number of solutions for the given graph.
When the lines are parallel, there are no solutions, As they do not intersect anywhere, they do not share a common point.
Identify the solution to this system of equations.
A system of linear equations can have infinite solutions if the equations are equivalent. This means that one of the equations is a multiple of the other. It also means that every point on the line satisfies all of the equations at the same time.
Identify the solution to this system of equations.
A system of linear equations can have infinite solutions if the equations are equivalent. This means that one of the equations is a multiple of the other. It also means that every point on the line satisfies all of the equations at the same time.
