Give an example of a matrix equation representing a linear combination of three vectors in R1,...

1. Give an example of a linear system of two equations with two unknowns. Also give...

1. Give an example of a linear system of two equations with two unknowns. Also give an example of a linear system of three equations with three unknowns. 2. What are the two properties that define an echelon matrix? What are the additional two properties needed to define a reduced echelon matrix? Give an example of a reduced echelon matrix, and give an example of an echelon matrix that is not reduced.

Resistor R1=3.7 Ohm is connected in series to parallel combination of resistors R2=7.9 Ohm and R3=11.1...

Resistor R1=3.7 Ohm is connected in series to parallel combination of resistors R2=7.9 Ohm and R3=11.1 Ohm. Find equivalent resistance of this combination. Give answer in Ohms. Resistor R1=3.7 Ohm is connected in series to parallel combination of resistors R2=7.9 Ohm and R3=10.7 Ohm. This combination is connected to the ideal battery of V=10.6 V. Find current through the R3. Give answer in A.

Give an example of a matrix, A, whose column space is in R3 and whose null...

Give an example of a matrix, A, whose column space is in R3 and whose null space is in R6. For your matrix above, is it true or false that Col A = R3? Why or Why not?

Resistor R1=3.0 Ohm is connected in series to a parallel combination of R2=9.0 Ohm and R3=7.0...

Resistor R1=3.0 Ohm is connected in series to a parallel combination of R2=9.0 Ohm and R3=7.0 Ohm. The combination of three resistors is connected to a real battery of emf 12.0 V. Find internal resistance of a battery if current through a battery is 0.40 A. Give answer in Ohms.

Give an example of the described object or explain why such an example does not exist....

Give an example of the described object or explain why such an example does not exist. •An orthogonal linear transformation T: R2→R2. •An orthogonal linear transformation T: R3→R3. •A basis B for R2 and an orthogonal linear transformation T: R2→R2 such that [T]B is an orthogonal matrix. •A basis B for R2 and an orthogonal linear transformation T: R2→R2 such that [T]B is NOT an orthogonal matrix. •A non-orthogonal linear transformation that takes an orthogonal basis to an orthogonal basis.

Show that the set is linearly dependent by finding a nontrivial linear combination of vectors in...

Show that the set is linearly dependent by finding a nontrivial linear combination of vectors in the set whose sum is the zero vector. (Use s1, s2, and s3, respectively, for the vectors in the set.) S = {(5, 2), (−1, 1), (2, 0)} a) (0, 0) = b) Express the vector s1 in the set as a linear combination of the vectors s2 and s3. s1 =

Using MATLAB solve: The vectors v1=(1,-1,1), v2=(0,1,2), v3=(3,0,1) span R3. Express w=(x,y,z) as linear combination of...

Using MATLAB solve: The vectors v1=(1,-1,1), v2=(0,1,2), v3=(3,0,1) span R3. Express w=(x,y,z) as linear combination of v1,v2,v3.

Give an example of each if possible, if not possible tell why. 1) A set of...

Give an example of each if possible, if not possible tell why. 1) A set of non-zero vectors in R4 that span R4 but are not linearly independent 2) A linear transformation T: R3 -> R3 that is one to one but NOT onto 3) A Linear transformation T: R3 -> R4 that is one to one 4) A Linear transformation T: R4 -> R3 that is onto 5) A Linear transformation T: R3 -> R4 that is onto

Write each vector as a linear combination of the vectors in S. (Use s1 and s2,...

Write each vector as a linear combination of the vectors in S. (Use s1 and s2, respectively, for the vectors in the set. If not possible, enter IMPOSSIBLE.) S = {(1, 2, −2), (2, −1, 1)} (a)    z = (−5, −5, 5) z = ? (b)    v = (−2, −6, 6) v = ? (c)    w = (−1, −17, 17) w = ? Show that the set is linearly dependent by finding a nontrivial linear combination of vectors in the set whose sum...

Find the equivalent resistance of a resistive network with three resistors: R1 = 2 Ω (ohm),...

Find the equivalent resistance of a resistive network with three resistors: R1 = 2 Ω (ohm), R2 = 7 Ω (ohm), and R3 = 9 Ω (ohm), where the series combination of R1 and R2 is in parallel with R3. In other words: (R1 in series with R2) in parallel with R3. Quote your answer in Ω (ohm) rounded to one decimal place.