For Exercises 9-32, solve the system. If a system has one unique solution, write the solution set. Otherwise, determine the number of solutions to the system, and determine whether the system is inconsistent, or the equations are dependent. (See Example 2-5) x + 2 3 + y − 4 2 + z + 1 6 = 8 − x + 2 3 + z + 1 2 = 8 y − 4 4 − z + 1 6 = − 1
For Exercises 9-32, solve the system. If a system has one unique solution, write the solution set. Otherwise, determine the number of solutions to the system, and determine whether the system is inconsistent, or the equations are dependent. (See Example 2-5) x + 2 3 + y − 4 2 + z + 1 6 = 8 − x + 2 3 + z + 1 2 = 8 y − 4 4 − z + 1 6 = − 1
Solution Summary: The author explains the steps for solving the system of equations in three variables.
For Exercises 9-32, solve the system. If a system has one unique solution, write the solution set. Otherwise, determine the number of solutions to the system, and determine whether the system is inconsistent, or the equations are dependent. (See Example 2-5)
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