Solutions of System of Equations

In summary, after solving the system of equations, it was found that there are no positive integer solutions that satisfy all three equations simultaneously. This is due to the fact that the first two equations imply that the number of digits in $x$ and $y$ must be equal, but the third equation contradicts this by stating that the sum of the number of digits in $x$, $y$, and $z$ is equal to $y-4$, which is not possible. Therefore, there are no solutions to this system of equations.
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anemone
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Find all solutions of the system of equations

$s(x)+s(y)=x\\ x+y+s(z)=z\\ s(x)+s(y)+s(z)=y-4$

where $x,\,y$ and $z$ are positive integers, and $s(x),\,s(y)$ and $s(z)$ are the numbers of digits in the decimal representations of $x,\,y$ and $z$ respectively.
 
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After solving the system of equations, I have found that there are no solutions that satisfy all three equations simultaneously. This is because the first two equations imply that $s(x)$ and $s(y)$ are equal to $x$ and $y$ respectively, which means that $x$ and $y$ must have the same number of digits. However, the third equation states that the sum of $s(x)$, $s(y)$, and $s(z)$ is equal to $y-4$, which is not possible since $s(x)$ and $s(y)$ already add up to $x+y$, which is greater than $y-4$. Therefore, there are no positive integer solutions for this system of equations.
 

FAQ: Solutions of System of Equations

What is a solution of a system of equations?

A solution of a system of equations is a set of values that satisfy all of the equations in the system. In other words, it is the point or points where all of the equations intersect on a graph.

How do you solve a system of equations?

There are several methods for solving a system of equations, including substitution, elimination, and graphing. The most common method is substitution, where one equation is solved for a variable and then that value is substituted into the other equations to find the remaining variables.

Can a system of equations have more than one solution?

Yes, a system of equations can have one, infinite, or no solutions. One solution occurs when the equations intersect at one point, infinite solutions occur when the equations are the same line, and no solutions occur when the equations are parallel lines.

What is the difference between consistent and inconsistent systems of equations?

A consistent system of equations has at least one solution, while an inconsistent system has no solutions. A consistent system can have either one or infinite solutions, but it must have at least one. An inconsistent system has no solutions because the equations do not intersect.

What are some real-world applications of systems of equations?

Systems of equations are used in many fields, including physics, engineering, and economics. They can be used to model and solve problems involving multiple variables, such as calculating the optimal production levels for a company or determining the intersection point of two moving objects.

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