
Algebra 2 - peacock
... A finite set has a definite, or finite, number of elements. An infinite set has an unlimited, or infinite number of elements. The Density Property states that between any two numbers there is another real number. So any interval that includes more than one point contains infinitely many points. ...
... A finite set has a definite, or finite, number of elements. An infinite set has an unlimited, or infinite number of elements. The Density Property states that between any two numbers there is another real number. So any interval that includes more than one point contains infinitely many points. ...
tyPes of natural numbers
... (ii) the only factor of 1 is 1 itself. (iii) every number is a factor of itself. (iv) every number (other than 1) has atleast two factors, namely 1 and itself. (v) every factor of a number is less than or equal to that number. (vi) every number has a finite number of factors. (vii) every number is a ...
... (ii) the only factor of 1 is 1 itself. (iii) every number is a factor of itself. (iv) every number (other than 1) has atleast two factors, namely 1 and itself. (v) every factor of a number is less than or equal to that number. (vi) every number has a finite number of factors. (vii) every number is a ...
P.1 Real Numbers
... 4. Numbers that can be written as the product of two or more prime numbers are called _______ numbers. 5. Integers that have exactly two positive factors, the integer itself and 1, are called _______ numbers. 6. An algebraic expression is a combination of letters called _______ and real numbers call ...
... 4. Numbers that can be written as the product of two or more prime numbers are called _______ numbers. 5. Integers that have exactly two positive factors, the integer itself and 1, are called _______ numbers. 6. An algebraic expression is a combination of letters called _______ and real numbers call ...
Two Irrational Numbers That Give the Last Non
... between P and N , it turns out that P , like F , is irrational: Theorem 2. Let P = 0.d1 d2 d3 . . . dn . . . be the infinite decimal such that each digit dn = lnzd(nn ). Then, P is irrational. Before we begin with the (slightly technical) proofs, let us pause and see if we can get a feel for why the ...
... between P and N , it turns out that P , like F , is irrational: Theorem 2. Let P = 0.d1 d2 d3 . . . dn . . . be the infinite decimal such that each digit dn = lnzd(nn ). Then, P is irrational. Before we begin with the (slightly technical) proofs, let us pause and see if we can get a feel for why the ...