2.99 See Answer

Question: refer to the following polynomials: / Subtract (

refer to the following polynomials:
refer to the following polynomials:

Subtract (A) from (B).

Subtract (A) from (B).


> In a solution of pH 5.3, the indicator bromocresol purple exhibits a yellow color, but when the pH is 6.0, the indicator solution changes to purple. Discuss why these colors are observed in terms of the wavelength regions and colors absorbed and transmit

> The equilibrium constant for the reaction 2CrO42- + 2H+ ⇌ Cr2O72- + H2O is 4.2 x 1014. The molar absorptivities for the two principal species in a solution of K2CrO7 are Four solutions were prepared by dissolving 4.00 x 10-4, 3.00 x 10

> Nitrite is commonly determined by a colorimetric procedure using a reaction called the Griess reaction. In this reaction, the sample containing nitrite is reacted with sulfanilimide and N-(1-Napthyl) ethylenediamine to form a colored species that absorbs

> One common way to determine phosphorus in urine is to treat the sample after removing the protein with molybdenum (VI) and then reducing the resulting 12-molybdophosphate complex with ascorbic acid to give an intense blue-colored species called molybdenu

> How does a gas-sensing probe differ from other membrane electrodes?

> Briefly describe or define (a) Indicator electrode. (b) Reference electrode. (c) Electrode of the first kind. (d) Electrode of the second kind. Answers: a) Indicator electrode: An indicator electrode is an electrode used in potentiometry that responds

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Represent the compound fractions in Problem as simple fractions reduced to lowest terms.

> Represent the compound fractions in Problem as simple fractions reduced to lowest terms.

> imagine that the indicated “solutions” were given to you by a student whom you were tutoring in this class. (A) Is the solution correct? If the solution is incorrect, explain what is wrong and how it can be corrected.

> imagine that the indicated “solutions” were given to you by a student whom you were tutoring in this class. (A) Is the solution correct? If the solution is incorrect, explain what is wrong and how it can be corrected.

> imagine that the indicated “solutions” were given to you by a student whom you were tutoring in this class. (A) Is the solution correct? If the solution is incorrect, explain what is wrong and how it can be corrected.

> imagine that the indicated “solutions” were given to you by a student whom you were tutoring in this class. (A) Is the solution correct? If the solution is incorrect, explain what is wrong and how it can be corrected.

> perform the indicated operations and reduce answers to lowest terms. Represent any compound fractions as simple fractions reduced to lowest terms.

> perform the indicated operations and reduce answers to lowest terms. Represent any compound fractions as simple fractions reduced to lowest terms.

> factor out all factors common to all terms.

> perform the indicated operations and reduce answers to lowest terms. Represent any compound fractions as simple fractions reduced to lowest terms.

> perform the indicated operations and reduce answers to lowest terms. Represent any compound fractions as simple fractions reduced to lowest terms.

> perform the indicated operations and reduce answers to lowest terms. Represent any compound fractions as simple fractions reduced to lowest terms.

> perform the indicated operations and reduce answers to lowest terms. Represent any compound fractions as simple fractions reduced to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> refer to the following polynomials: Multiply (A) and (C).

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> Perform the indicated operations and reduce answers to lowest terms.

> factor by grouping.

> factor out all factors common to all terms.

> factor out all factors common to all terms.

> discuss the validity of each statement. If the statement is true, explain why. If not, give a counterexample. If k is a positive integer, then u2k + 1 + v2k + 1 can be factored.

> discuss the validity of each statement. If the statement is true, explain why. If not, give a counterexample. If m and n are positive integers and m ≠ n, then um - vn is not factorable.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> indicate true (T) or false (F). 8. a + cb = a + bc 10. 12. 14. 16. 18 20 22. 24. 26.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> factor completely. If a polynomial cannot be factored, say so.

> Each ounce of food M contains 8 units of calcium, and each ounce of food N contains 5 units of calcium. A 160-ounce diet mix is formed using foods M and N. If x is the number of ounces of food M used, write an algebraic expression that represents the tot

> factor completely. If a polynomial cannot be factored, say so.

> Six thousand tickets are to be sold for a concert, some for $20 each and the rest for $35 each. If x is the number of $20 tickets sold, write an algebraic expression that represents the gross receipts from ticket sales, assuming all tickets are sold. Sim

> factor completely. If a polynomial cannot be factored, say so.

> A person has $100,000 to invest. If $x are invested in a money market account yielding 7% and twice that amount in certificates of deposit yielding 9%, and if the rest is invested in high-grade bonds yielding 11%, write an algebraic expression that repre

> factor completely. If a polynomial cannot be factored, say so.

> Show by example that, in general, (a – b)2 ≠ a2 - b2 . Discuss possible conditions on a and b that would make this a valid equation.

> factor completely. If a polynomial cannot be factored, say so.

> How does the answer to Problem 52 change if the two polynomials can have the same degree?

> factor completely. If a polynomial cannot be factored, say so.

> What is the degree of the sum of the two polynomials in Problem 51?

> factor completely. If a polynomial cannot be factored, say so.

> perform the indicated operations and simplify.

> Replace each question mark with an appropriate expression that will illustrate the use of the indicated real number property. Identity property ( + ): 0 + 9m = ?

> perform the indicated operations and simplify.

> The price of gas increased 4% in one week. If the price last week was $4.30 per gallon, what is the price now? (Round to the nearest cent).

> Subtract the sum of the first two polynomials from the sum of the last two: 3m2 - 2m + 5, 4m2 - m, 3m2 - 3m - 2, m3 + m2 + 2

> If you paid $29.86 in tax on a purchase of $533.19, what was the sales tax rate? (Write as a percentage, rounded to one decimal place).

> perform the indicated operations and simplify.

> without using a calculator, round to the nearest integer.

> perform the indicated operations and simplify.

> without using a calculator, round to the nearest integer

> perform the indicated operations and simplify.

> Use a calculator to express each number in Problem as a decimal to the capacity of your calculator. Observe the repeating decimal representation of the rational numbers and the nonrepeating decimal representation of the irrational numbers.

> refer to the following polynomials: Add (A) and (B).

> perform the indicated operations and simplify.

> Repeat Problem 37 for 0.181818 . . . . . Data from Problem 37: Proceeding similarly, convert the repeating decimal 0.090909c into a fraction. (All repeating decimals are rational numbers, and all rational numbers have repeating decimal representations.)

> perform the indicated operations and simplify.

> Indicate true (T) or false (F), and for each false statement find real number replacements for a and b that will provide a counterexample. For all real numbers a and b, (A) a + b = b + a (B) a - b = b - a (C) ab = ba (D) a ÷ b = b ÷ a

> perform the indicated operations and simplify.

> Given the sets of numbers N, Z, Q, and R , indicate to which set(s) each of the following numbers belongs: (A) -3 (B) 3.14 (C) π (D) 2/3

> perform the indicated operations and simplify.

> Give an example of a rational number that is not an integer.

> perform the indicated operations and simplify.

> Indicate whether the following are true (T) or false (F): (A) All natural numbers are integers. (B) All real numbers are irrational. (C) All rational numbers are real numbers.

> Replace each question mark with an appropriate expression that will illustrate the use of the indicated real number property. Associative property ( ∙ ) : x(yz) = ?

> perform the indicated operations and simplify.

> If uv = 0, does either u or v have to be 0? Explain.

> factor completely. If a polynomial cannot be factored, say so.

> perform the indicated operations and simplify.

> factor completely. If a polynomial cannot be factored, say so.

> perform the indicated operations and simplify.

> factor completely. If a polynomial cannot be factored, say so.

> perform the indicated operations and simplify.

> factor completely. If a polynomial cannot be factored, say so.

> Solve Problem by Factoring.

> Solve Problem by Factoring.

> Solve Problem by the square-root method.

> Solve Problem by the square-root method.

> It is of considerable importance to know the least number of feet d in which a car can be stopped, including reaction time of the driver, at various speeds v (in miles per hour). Safety research has produced the formula d = 0.044v2 + 1.1v. If it took a c

> Using the formula in Problem 51, determine the interest rate that will make $1,000 grow to $1,210 in 2 years. Data from Problem 51: If P dollars are invested at 100r percent compounded annually, at the end of 2 years it will grow to A = P(1 + r)2 . At w

> An importer sells an automatic camera to outlets in a large city. During the summer, the weekly supply-and-demand equations are How many units are required for supply to equal demand? At what price will supply equal demand?

> perform the indicated operations and simplify.

> refer to the following polynomials: What is the degree of (A)?

2.99

See Answer