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Question: Find the products in Problems. /

Find the products in Problems.
Find the products in Problems.


> Given M find M-1 and show that M-1 M = I.

> Given M find M-1 and show that M-1 M = I.

> Without performing any row operations, explain why each of the matrices does not have an inverse.

> Without performing any row operations, explain why each of the matrices does not have an inverse.

> Without performing any row operations, explain why each of the matrices does not have an inverse.

> Without performing any row operations, explain why each of the matrices does not have an inverse.

> Without performing any row operations, explain why each of the matrices does not have an inverse. Answer: Only square matrices have inverses.

> Examine the product of the two matrices to determine if each is the inverse of the other.

> Examine the product of the two matrices to determine if each is the inverse of the other.

> Examine the product of the two matrices to determine if each is the inverse of the other.

> evaluate the given expression without using a calculator.

> Examine the product of the two matrices to determine if each is the inverse of the other.

> Examine the product of the two matrices to determine if each is the inverse of the other.

> Find the matrix products. Note that each product can be found mentally, without the use of a calculator or pencil-and-paper calculations.

> Find the matrix products. Note that each product can be found mentally, without the use of a calculator or pencil-and-paper calculations

> Perform the indicated operation, if possible.

> Perform the indicated operation, if possible.

> Perform the indicated operation, if possible.

> Determine whether the statement is true or false. There exist two nonzero 1 x1 matrices A and B such that AB is the 1 x 1 zero matrix.

> Perform the indicated operation, if possible.

> Perform the indicated operation, if possible.

> evaluate the given expression without using a calculator.

> A teacher has given four tests to a class of five students and stored the results in the following matrix: Discuss methods of matrix multiplication that the teacher can use to obtain the information indicated below. In each case, state the matrices to be

> Gregor Mendel (1822–1884) made discoveries that revolutionized the science of genetics. In one experiment, he crossed dihybrid yellow round peas (yellow and round are dominant characteristics; the peas also contained genes for the reces

> A personal computer retail company sells five different computer models through three stores. The inventory of each model on hand in each store is summarized in matrix M. Wholesale (W) and retail (R) values of each model computer are summarized in matrix

> Referring to Problem 67, what is the markup matrix resulting from a 20% increase in dealer invoice prices and an increase in retail prices of 15%? (Compute results to the nearest dollar.) Data from problem 67: An import car dealer sells three models of

> If both labor and materials at plant X are increased by 20%, find ½ (1.2A + B), the new average cost of production for the two plants.

> A square matrix is an upper triangular matrix if all elements below the principal diagonal are zero. So a 2 x 2 upper triangular matrix has the form where a, b, and d are real numbers. Discuss the validity of each of the following statements. If the stat

> Determine whether the statement is true or false. There exist two 2 x 2 matrices A and B such that AB ≠ BA.

> Find a, b, c, and d so that

> Find w, x, y, and z so that.

> In how many different ways can 6 candidates for an office be listed on a ballot?

> A = [0.4 0.6] and B =/

> If a and b are nonzero real numbers and find A2.

> If a and b are nonzero real numbers, find AB and BA.

> Refer to the following matrices: Perform the indicated operations, if possible. BAD

> Refer to the following matrices: Perform the indicated operations, if possible. CDA

> Refer to the following matrices: Perform the indicated operations, if possible. ( -1) AC + (3) DB

> Refer to the following matrices: Perform the indicated operations, if possible. (2) DB + (5) CD

> Refer to the following matrices: Perform the indicated operations, if possible. (0.2) CD

> Refer to the following matrices: Perform the indicated operations, if possible. C + DA

> Refer to the following matrices: Perform the indicated operations, if possible. C2

> Because of limited funds, 5 research centers are chosen out of 8 suitable ones for a study on heart disease. How many choices are possible?

> Refer to the following matrices: Perform the indicated operations, if possible. BA

> Refer to the following matrices: Perform the indicated operations, if possible. CA

> Find the products in Problems.

> Find the products in Problems.

> Find the products in Problems.

> Find the matrix product. Note that each product can be found mentally.

> Find the matrix product. Note that each product can be found mentally.

> Find the matrix product. Note that each product can be found mentally.

> Find the matrix product. Note that each product can be found mentally.

> A 4-person grievance committee is selected out of 2 departments A and B, with 15 and 20 people, respectively. In how many ways can the following committees be selected? (A) 3 from A and 1 from B (B) 2 from A and 2 from B (C) All from A (D) 4 people re

> Perform the indicated operation, if possible.

> Perform the indicated operation, if possible.

> write the system of linear equations that is represented by the augmented matrix. Assume that the variables are x1, x2,c .

> Write the system of linear equations that is represented by the augmented matrix. Assume that the variables are x1, x2,c .

> Write the augmented matrix of the system of linear equations.

> Write the augmented matrix of the system of linear equations.

> Refer to Problem 97. Closing Washington Avenue east of 6th Street for construction changes the traffic flow for the network as indicated in the figure. Repeat parts (A)–(D) of Problem 97 for this traffic flow. Data from problem 97: The

> Repeat Problem 95 if 650 telephone contacts and 350 house contacts are needed. Data from problem95: Two sociologists have grant money to study school busing in a particular city. They wish to conduct an opinion survey using 600 telephone contacts and 40

> Refer to Problem 92. Subsequent data indicated that life expectancy grew to 73.2 years for males born during 1995–2000 and to 74.3 years for males born during 2000–2005. Add the points (15, 73.2) and (20, 74.3) to the data set in Problem 92. Use a graphi

> The life expectancy for males born during 1980–1985 was approximately 70.7 years. This grew to 71.1 years during 1985–1990 and to 71.8 years during 1990–1995. Construct a model for this data by finding a quadratic equation whose graph passes through the

> A real estate company with 14 employees in its central office, 8 in its north office, and 6 in its south office is planning to lay off 12 employees. (A) How many ways can this be done? (B) The company decides to lay off 5 employees from the central off

> The population of California was approximately 30 million in 1990, 34 million in 2000, and 37 million in 2010. Construct a model for this data by finding a quadratic equation whose graph passes through the points (0, 30), (10, 34), and (20, 37). Use this

> Refer to Problem 86. The costs of the four brands are Brand A, $1.50; Brand B, $3.00; Brand C, $3.75; and Brand D, $2.25. Which of the solutions to Problem 86 would minimize the cost of the rat food? Data from problem 86: In a laboratory experiment, rat

> In a laboratory experiment, rats are to be fed 5 packets of food containing a total of 80 units of vitamin E. There are four different brands of food packets that can be used. A packet of brand A contains 5 units of vitamin E, a packet of brand B contain

> Repeat Problem 83 if the diet is to include exactly 400 units of calcium, 160 units of iron, and 240 units of vitamin A. Data from problem83: A dietitian in a hospital is to arrange a special diet composed of three basic foods. The diet is to include ex

> Repeat Problem 81 if tax law is changed so that the taxable income of a company is defined to be all of its own annual net income plus its share of the taxable income of each of the other companies. Data from problem 81: As a result of several mergers a

> Repeat Problem 79 if local taxes are not allowed as a deduction for federal and state taxes. Data from problem79: A corporation has a taxable income of $7,650,000. At this income level, the federal income tax rate is 50%, the state tax rate is 20%, and

> Refer to Problem 76. The cost of leasing a 10-passenger airplane is $8,000 per month, a 15-passenger airplane is $14,000 per month, and a 20-passenger airplane is $16,000 per month. Which of the solutions to Problem 76 would minimize the monthly leasing

> A corporation wants to lease a fleet of 12 airplanes with a combined carrying capacity of 220 passengers. The three available types of planes carry 10, 15, and 20 passengers, respectively. How many of each type of plane should be leased?

> Repeat Problem 73 assuming that the cutting, assembly, and packaging departments have available a maximum of 350, 330, and 115 labor-hours per week, respectively. Data from 73: A small manufacturing plant makes three types of inflatable boats: one-perso

> Find a, b, and c so that the graph of the quadratic equation y = ax2 + bx + c passes through the points 1 -1, -52, 12, 72, and 15, 12.

> An electronics store receives a shipment of 30 graphing calculators, including 6 that are defective. Four of these calculators are selected for a local high school. (A) How many selections can be made? (B) How many of these selections will contain no d

> Solve Problems using Gauss–Jordan elimination.

> Solve Problems using Gauss–Jordan elimination

> Solve Problems using Gauss–Jordan elimination.

> Consider a system of three linear equations in three variables. Give examples of two reduced forms that are not row-equivalent if the system is (A) Consistent and dependent (B) Inconsistent

> Solve by using Gauss–Jordan elimination.

> Solve by using Gauss–Jordan elimination.

> Solve by using Gauss–Jordan elimination.

> Solve by using Gauss–Jordan elimination.

> Solve by using Gauss–Jordan elimination.

> Solve by using Gauss–Jordan elimination.

> Note from the table in the graphing calculator display that the largest value of nCr when n = 21 is 21C10 = 21C11 = 352,716. Use a similar table to find the largest value of nCr when n = 17.

> Evaluate the expression. If the answer is not an integer, round to four decimal places.

> Solve by using Gauss–Jordan elimination.

> Solve by using Gauss–Jordan elimination.

> Use row operations to change each matrix to reduced form.

> Use row operations to change each matrix to reduced form.

> Use row operations to change each matrix to reduced form.

> Use row operations to change each matrix to reduced form.

> Discuss the validity of each statement about linear systems. If the statement is always true, explain why. If not, give a counterexample. If there are no all-zero rows, then the system has exactly one solution.

> Discuss the validity of each statement about linear systems. If the statement is always true, explain why. If not, give a counterexample. If the number of leftmost ones is less than the number of variables and the system is consistent, then the system h

> Discuss the validity of each statement about linear systems. If the statement is always true, explain why. If not, give a counterexample. If the number of leftmost ones is less than the number of variables, then the system has infinitely many solutions

> In which of Problems 20, 22, 24, 26, and 28 is the number of leftmost ones less than the number of variables?

> Let U be the set of all 2-card hands, let K be the set of all 2-card hands that contain exactly 1 king, and let Q be the set of all 2-card hands that contain exactly 1 queen. Find n(K ∩ Q′), n(K ∩ Q), n(K′ ∩ Q), and n(K′ ∩ Q′).

> In which of Problems 20, 22, 24, 26, and 28 is the number of leftmost ones equal to the number of variables?

> Write the solution of the linear system corresponding to each reduced augmented matrix.

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