consider the linear system of equations, 3x+2y=-3 and -x+ay=-4. For which value of a does the...

4. [10] Consider the system of linear equations x + y + z = 4 x...

4. [10] Consider the system of linear equations x + y + z = 4 x + y + 2z = 6 x + y + (b2 − 3)z = b + 2 where b is an unspecified real number. Determine, with justification, the values of b (if any) for which the system has (i) no solutions; (ii) a unique solution; (ii) infinitely many solutions.

Solve this system of equations −2x−3y=−17 −3x+2y=−6 One solution: No solution Infinite number of solutions

Solve this system of equations −2x−3y=−17 −3x+2y=−6 One solution: No solution Infinite number of solutions

1) Solve by Substitution. {x+2y=−1 {-6y=3+3x a) One solution:    b) No solution c) Infinite number...

1) Solve by Substitution. {x+2y=−1 {-6y=3+3x a) One solution:    b) No solution c) Infinite number of solutions 2) Solve by Substitution {4x+y=−15 {2y=-27-8x a) One solution: b) No solution c) Infinite number of solutions 3) Solve the system by elimination. {−x−2y=4 {2x+2y=-8 a) One solution: b) No solution c) Infinite number of solutions

The system of equations may have a unique solution, an infinite number of solutions, or no...

The system of equations may have a unique solution, an infinite number of solutions, or no solution. Use matrices to find the general solution of the system, if a solution exists. (If there is no solution, enter NO SOLUTION. If there are infinitely many solutions, express your answers in terms of z as in Example 3.) 3x ? 2y + 5z = 11 2x ? 3y + 4z = 8

The augmented matrix represents a system of linear equations in the variables x and y. [1...

The augmented matrix represents a system of linear equations in the variables x and y. [1 0 5. ] [0 1 0 ] (a) How many solutions does the system have: one, none, or infinitely many? (b) If there is exactly one solution to the system, then give the solution. If there is no solution, explain why. If there are an infinite number of solutions, give two solutions to the system.

Solve the following system of equations and determine if there is a unique solution, an infinite...

Solve the following system of equations and determine if there is a unique solution, an infinite set of solutions, or no solution. 3x+ 2y= 7 −9x−6y=−21 If there is an infinite set of solutions, express this set of solutions in terms of a parameter

Consider the following system of equations. 4x + ay = −5 3x + by − 2z...

Consider the following system of equations. 4x + ay = −5 3x + by − 2z = 4 5x + cy + 4z = 0 And let A = 4 a 0 3 b −2 5 c 4 Suppose that det(A) = 2. Use Cramer's rule to solve the above system for the variable y.

4. Solve the system of linear equations by using the Gauss-Jordan (Matrix) Elimination Method. No credit...

4. Solve the system of linear equations by using the Gauss-Jordan (Matrix) Elimination Method. No credit in use any other method. Use exactly the notation we used in class and in the text. Indicate whether the system has a unique solution, no solution, or infinitely many solutions. In the latter case, present the solutions in parametric form. 3x + 6y + 3z = -6 -2x -3y -z = 1 x +2y + z = -2

Find the values of a and b for which the following system of linear equations is...

Find the values of a and b for which the following system of linear equations is (i) inconsistent; (ii) has a unique solution; (iii) has infinitely many solutions. For the case where the system has infinitely many solutions, write the general solution. x + y + z = a x + 2y ? z = 0 x + by + 3z = 2

q.1.(a) The following system of linear equations has an infinite number of solutions x+y−25 z=3 x−5 ...

q.1.(a) The following system of linear equations has an infinite number of solutions x+y−25 z=3 x−5 y+165 z=0    4 x−14 y+465 z=3 Solve the system and find the solution in the form x(vector)=ta(vector)+b(vector)→, where t is a free parameter. When you write your solution below, however, only write the part a(vector=⎡⎣⎢ax ay az⎤⎦⎥ as a unit column vector with the first coordinate positive. Write the results accurate to the 3rd decimal place. ax = ay = az =