261 13 | Integral Domains Exercises It looked absolutely impossible. But it so happens that you go on worryin8 at a problem in science and it seems to get tired, and lies down and away lets you catch...


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261<br>13 | Integral Domains<br>Exercises<br>It looked absolutely impossible. But it so happens that you go on worryin8<br>at a problem in science and it seems to get tired, and lies down and<br>away<br>lets you catch it.<br>WILLIAM LAWRENCE BRAGGT<br>1. Verify that Examples 1 through 8 are as claimed.<br>2. Which of Examples 1 through 5 are fields?<br>3. Show that a commutative ring with the cancellation property<br>(under multiplication) has no zero-divisors.<br>4. List all zero-divisors in Z2o: Can you see a relationship between the<br>zero-divisors of Z and the units of Z20?<br>20<br>5. Show that every nonzero element of Z is a unit or a zero-divisor.<br>6. Find a nonzero element in a ring that is neither a zero-divisor nor a<br>unit.<br>п<br>7. Let R be a finite commutative ring with unity. Prove that every<br>nonzero element of R is either a zero-divisor or a unit. What hap-<br>pens if we drop the

Extracted text: 261 13 | Integral Domains Exercises It looked absolutely impossible. But it so happens that you go on worryin8 at a problem in science and it seems to get tired, and lies down and away lets you catch it. WILLIAM LAWRENCE BRAGGT 1. Verify that Examples 1 through 8 are as claimed. 2. Which of Examples 1 through 5 are fields? 3. Show that a commutative ring with the cancellation property (under multiplication) has no zero-divisors. 4. List all zero-divisors in Z2o: Can you see a relationship between the zero-divisors of Z and the units of Z20? 20 5. Show that every nonzero element of Z is a unit or a zero-divisor. 6. Find a nonzero element in a ring that is neither a zero-divisor nor a unit. п 7. Let R be a finite commutative ring with unity. Prove that every nonzero element of R is either a zero-divisor or a unit. What hap- pens if we drop the "finite" condition on R? 8. Let a 0 belong to a commutative ring. Prove that a is a zero- divisor if and only if a2b 0 for some b 0. 9. Find elements a, b, and c in the ring Z ZeZ such that ab, ac, and bc are zero-divisors but abc is not a zero-divisor. 10. Describe all zero-divisors and units of ZOQZ 11. Let d be an integer. Prove that Z[Vd] = {a + bVd a, b E Z} is an integral domain. (This exercise is referred to in Chapter 18.) 12. In Z,, give a reasonable interpretation for the expressions 1/2, -2/3, V-3, and - 1/6. 13. Give an example of a commutative ring without zero-divisors that is not an integral domain. 14. Find two elements a and b in a ring such that both a and b are zero- C pa divisors, a + b 0, and a + b is not a zero-divisor. 15. Let a belong to a ring R with unity and suppose that a" = 0 for some positive integer n. (Such an element is called nilpotent.) Prove that 1 a has a multiplicative inverse in R. [Hint: Consider (1- a)(1 + a + a2+ + a-1).] Bragg, at age 24, won the Nobel Prize for the invention of x-ray crystallography. He remains the youngest person ever to receive the Nobel Prize.
Jun 05, 2022
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