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**Statement List for Metamath Proof Explorer -** 4201-4300 - Page 43 of 107
Type	Label	Description
Statement

Theorem	omword 4201	Weak ordering property of ordinal multiplication.
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Theorem	omwordi 4202	Weak ordering property of ordinal multiplication.
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Theorem	omwordri 4203	Weak ordering property of ordinal multiplication. Proposition 8.21 of [TakeutiZaring] p. 63.
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Theorem	omword1 4204	An ordinal is less than or equal to its product with another.
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Theorem	omword2 4205	An ordinal is less than or equal to its product with another.
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Theorem	om00 4206	The product of two ordinal numbers is zero iff at least one of them is zero. Proposition 8.22 of [TakeutiZaring] p. 64.
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Theorem	om00el 4207	The product of two nonzero ordinal numbers is nonzero.
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Theorem	omordlim 4208	Ordering involving the product of a limit ordinal. Proposition 8.23 of [TakeutiZaring] p. 64.
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Theorem	omlimcl 4209	The product of any nonzero ordinal with a limit ordinal is a limit ordinal. Proposition 8.24 of [TakeutiZaring] p. 64.
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Theorem	odi 4210	Distributive law for ordinal arithmetic. Proposition 8.25 of [TakeutiZaring] p. 64. Warning: The HTML proof page is 3/4 megabyte in size.
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Theorem	omass 4211	Multiplication of ordinal numbers is associative. Theorem 8.26 of [TakeutiZaring] p. 65.
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Theorem	oneo 4212	If an ordinal number is even, its successor is odd.
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Theorem	oen0 4213	Ordinal exponentiation with a nonzero mantissa is nonzero. Proposition 8.32 of [TakeutiZaring] p. 67.
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Theorem	oeordi 4214	Ordering law for ordinal exponentiation. Proposition 8.33 of [TakeutiZaring] p. 67.
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Theorem	oeord 4215	Ordering property of ordinal exponentiation. Corollary 8.34 of [TakeutiZaring] p. 68 and its converse.
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Theorem	oecan 4216	Left cancellation law for ordinal exponentiation.
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Theorem	oeword 4217	Weak ordering property of ordinal exponentiation.
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Theorem	oewordi 4218	Weak ordering property of ordinal exponentiation.
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Theorem	oewordri 4219	Weak ordering property of ordinal exponentiation. Proposition 8.35 of [TakeutiZaring] p. 68.
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Theorem	oeworde 4220	Ordinal exponentiation compared to its exponent. Proposition 8.37 of [TakeutiZaring] p. 68.
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Theorem	oeordsuc 4221	Ordering property of ordinal exponentiation with a successor exponent. Corollary 8.36 of [TakeutiZaring] p. 68.
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Theorem	oelim2 4222	Ordinal exponentiation with a limit exponent. Part of Exercise 4.36 of [Mendelson] p. 250.
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Natural number arithmetic

Theorem	nna0 4223	Addition with zero. Theorem 4I(A1) of [Enderton] p. 79.


Theorem	nnm0 4224	Multiplication with zero. Theorem 4J(A1) of [Enderton] p. 80.


Theorem	nnasuc 4225	Addition with successor. Theorem 4I(A2) of [Enderton] p. 79.
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Theorem	nnmsuc 4226	Multiplication with successor. Theorem 4J(A2) of [Enderton] p. 80.
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Theorem	nna0r 4227	Addition to zero. Remark in proof of Theorem 4K(2) of [Enderton] p. 81.


Theorem	nnm0r 4228	Multiplication with zero. Exercise 16 of [Enderton] p. 82.


Theorem	nnacl 4229	Closure of addition of natural numbers. Proposition 8.9 of [TakeutiZaring] p. 59.
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Theorem	nnmcl 4230	Closure of multiplication of natural numbers. Proposition 8.17 of [TakeutiZaring] p. 63.
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Theorem	nnecl 4231	Closure of exponentiation of natural numbers. Proposition 8.17 of [TakeutiZaring] p. 63.
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Theorem	nnarcl 4232	Reverse closure law for addition of natural numbers. Exercise 1 of [TakeutiZaring] p. 62 and its converse.
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Theorem	nnacom 4233	Addition of natural numbers is commutative. Theorem 4K(2) of [Enderton] p. 81.
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Theorem	nnaordi 4234	Ordering property of addition. Proposition 8.4 of [TakeutiZaring] p. 58, limited to natural numbers.
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Theorem	nnaord 4235	Ordering property of addition. Proposition 8.4 of [TakeutiZaring] p. 58, limited to natural numbers, and its converse.
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Theorem	nnaordr 4236	Ordering property of addition of natural numbers.
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Theorem	nnaass 4237	Addition of natural numbers is associative. (For brevity, this is just a special case of the proof for ordinals. A direct proof would be about 1/3 the size of the ordinal proof, since it would use finite induction and not require the limit ordinal case..) Theorem 4K(1) of [Enderton] p. 81.
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Theorem	nndi 4238	Distributive law for natural numbers. (For brevity, this is just a special case of the proof for ordinals. A direct proof would be about 1/4 the size of the ordinal proof, since it would use finite induction and not require the limit ordinal case.) Theorem 4K(3) of [Enderton] p. 81.
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Theorem	nnmass 4239	Multiplication of natural numbers is associative. (For brevity, this is just a special case of the proof for ordinals. A direct proof would be about 1/3 the size of the ordinal proof, since it would use finite induction and not require the limit ordinal case..) Theorem 4K(4) of [Enderton] p. 81.
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Theorem	nnmsucr 4240	Multiplication with successor. Exercise 16 of [Enderton] p. 82.
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Theorem	nnmcom 4241	Multiplication of natural numbers is commutative. Theorem 4K(5) of [Enderton] p. 81.
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Theorem	nnacan 4242	Cancellation law for addition of natural numbers.
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Theorem	nnaword 4243	Weak ordering property of addition.
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Theorem	nnaword1 4244	Weak ordering property of addition.
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Theorem	nnaword2 4245	Weak ordering property of addition.
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Theorem	nnmordi 4246	Ordering property of multiplication. Half of Proposition 8.19 of [TakeutiZaring] p. 63, limited to natural numbers.
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Theorem	nnmord 4247	Ordering property of multiplication. Proposition 8.19 of [TakeutiZaring] p. 63, limited to natural numbers.
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Theorem	nnmcan 4248	Cancellation law for multiplication of natural numbers.
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Theorem	nnaordex 4249	Equivalence for ordering. Compare Exercise 23 of [Enderton] p. 88.
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Theorem	nnawordex 4250	Equivalence for weak ordering of natural numbers.
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Theorem	oaabslem 4251	Lemma for oaabs 4252.

Theorem	oaabs 4252	Ordinal addition absorbs a natural number added to the left of a transfinite number. Proposition 8.10 of [TakeutiZaring] p. 59.
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Theorem	1onn 4253	One is a natural number.


Theorem	2onn 4254	The ordinal 2 is a natural number.


Theorem	nneob 4255	A natural number is even iff its successor is odd.