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The coordinates of every point on the graph, and no other points, are solutions of the equation.
There are several equations related to matter. What is it you want to calculate?There are several equations related to matter. What is it you want to calculate?There are several equations related to matter. What is it you want to calculate?There are several equations related to matter. What is it you want to calculate?
You maybe thinking of straight line equations or simultaneous equations
Put the coefficients of the variables into a 3x3 matrix, and take the determinant of the matrix. If the determinant is not zero, then there is one solution. If the determinant is zero, then there are infinite solutions or there is no solution. Think of a system of 2 variables, for simplicity. You have 2 equations and 2 variables (x & y). Each equation can be graphed as a straight line, hence the name 'linear system'. If the 2 lines are not parallel, then there will be only one point where they intersect, which is the one solution to the linear system. If they are parallel, then there is no solution(they never intersect), and if the two lines coincide, then infinite solutions(they intersect at every point). In both of the latter cases, the related matrix will have a determinant of zero.
The real solutions are the points at which the graph of the function crosses the x-axis. If the graph never crosses the x-axis, then the solutions are imaginary.
The graph of an equation represents the solution set of the equation, that is all the solutions of the equation are points that lie on the graph and all the points that lie on the graph are solutions of the equation.
The coordinates of every point on the graph, and no other points, are solutions of the equation.
There are several equations related to matter. What is it you want to calculate?There are several equations related to matter. What is it you want to calculate?There are several equations related to matter. What is it you want to calculate?There are several equations related to matter. What is it you want to calculate?
There are many equations related to electricity. You will have to be more specific.
They are different ways to represent the answers of an equation
The equations for photosynthesis and cellular respiration are related in that they are essentially reverse processes of each other. In photosynthesis, plants use sunlight to convert carbon dioxide and water into glucose and oxygen. In cellular respiration, organisms break down glucose and oxygen to produce carbon dioxide, water, and energy. Essentially, the outputs of one process are the inputs of the other.
You maybe thinking of straight line equations or simultaneous equations
A related equation is a set of equations that all communicate the same relationship between three values, but in different ways. Example: a+b=c a=c-b b=c-a
A percent proportion is related to an equation because they are both used to indicate part of another whole. Equations are complex forms of fractions, sequence and they express logic.
Put the coefficients of the variables into a 3x3 matrix, and take the determinant of the matrix. If the determinant is not zero, then there is one solution. If the determinant is zero, then there are infinite solutions or there is no solution. Think of a system of 2 variables, for simplicity. You have 2 equations and 2 variables (x & y). Each equation can be graphed as a straight line, hence the name 'linear system'. If the 2 lines are not parallel, then there will be only one point where they intersect, which is the one solution to the linear system. If they are parallel, then there is no solution(they never intersect), and if the two lines coincide, then infinite solutions(they intersect at every point). In both of the latter cases, the related matrix will have a determinant of zero.
No, the quadratic equation, is mainly used in math to find solutions to quadratic expressions. It is not related to science in any way.
The real solutions are the points at which the graph of the function crosses the x-axis. If the graph never crosses the x-axis, then the solutions are imaginary.