Proof of Nuprl Lemma : aa_pc_3n

Step * 1 1 2 1 1 3 of Lemma aa_pc_3n_new

1.

m:

.

n:

. ((m ~ snd(aa_3n_plus_1_depth_pi(n)))

(m

0 ))@i
2. d :

@i
3.

d1:

n:

(((n > 0)

(d1 ~ snd(aa_3n_plus_1_depth_pi(n))))

(

m:

. ((fst(aa_3n_plus_1_depth_pi(n)) ~ m)

(n

2^m))))
supposing d1 < d
4. n :

@i
5. n > 0@i
6. d ~ 1 + (snd(aa_3n_plus_1_depth_pi(n

2)))
7.

(n = 1)
8. (n rem 2) = 0
9. (1 + (snd(aa_3n_plus_1_depth_pi(n

2))))

10. 1

11. snd(aa_3n_plus_1_depth_pi(n

2))

12. (snd(aa_3n_plus_1_depth_pi(n

2)))

0
13.

m:

. ((fst(aa_3n_plus_1_depth_pi(n

2)) ~ m)

((n

2)

2^m))

m:

. ((fst(aa_3n_plus_1_depth_pi(n)) ~ m)

(n

2^m))
BY
{ ((D (-1) THEN InstConcl [

1 + m

]

) THEN Auto') }

1
1.

m:

.

n:

. ((m ~ snd(aa_3n_plus_1_depth_pi(n)))

(m

0 ))@i
2. d :

@i
3.

d1:

n:

(((n > 0)

(d1 ~ snd(aa_3n_plus_1_depth_pi(n))))

(

m:

. ((fst(aa_3n_plus_1_depth_pi(n)) ~ m)

(n

2^m))))
supposing d1 < d
4. n :

@i
5. n > 0@i
6. d ~ 1 + (snd(aa_3n_plus_1_depth_pi(n

2)))
7.

(n = 1)
8. (n rem 2) = 0
9. (1 + (snd(aa_3n_plus_1_depth_pi(n

2))))

10. 1

11. snd(aa_3n_plus_1_depth_pi(n

2))

12. (snd(aa_3n_plus_1_depth_pi(n

2)))

0
13. m :

14. fst(aa_3n_plus_1_depth_pi(n

2)) ~ m
15. (n

2)

2^m

fst(aa_3n_plus_1_depth_pi(n)) ~ 1 + m

2
1.

m:

.

n:

. ((m ~ snd(aa_3n_plus_1_depth_pi(n)))

(m

0 ))@i
2. d :

@i
3.

d1:

n:

(((n > 0)

(d1 ~ snd(aa_3n_plus_1_depth_pi(n))))

(

m:

. ((fst(aa_3n_plus_1_depth_pi(n)) ~ m)

(n

2^m))))
supposing d1 < d
4. n :

@i
5. n > 0@i
6. d ~ 1 + (snd(aa_3n_plus_1_depth_pi(n

2)))
7.

(n = 1)
8. (n rem 2) = 0
9. (1 + (snd(aa_3n_plus_1_depth_pi(n

2))))

10. 1

11. snd(aa_3n_plus_1_depth_pi(n

2))

12. (snd(aa_3n_plus_1_depth_pi(n

2)))

0
13. m :

14. fst(aa_3n_plus_1_depth_pi(n

2)) ~ m
15. (n

2)

2^m

n

2^1 + m

1. \mforall{}m:\mBbbZ{}. \mforall{}n:\mBbbN{}. ((m \msim{} snd(aa\_3n\_plus\_1\_depth\_pi(n))) {}\mRightarrow{} (m \mgeq{} 0 ))@i 2. d : \mBbbN{}@i 3. \mforall{}d1:\mBbbN{} \mforall{}n:\mBbbZ{} (((n > 0) \mwedge{} (d1 \msim{} snd(aa\_3n\_plus\_1\_depth\_pi(n)))) {}\mRightarrow{} (\mexists{}m:\mBbbN{}. ((fst(aa\_3n\_plus\_1\_depth\_pi(n)) \msim{} m) \mwedge{} (n \mleq{} 2\^{}m)))) supposing d1 < d 4. n : \mBbbZ{}@i 5. n > 0@i 6. d \msim{} 1 + (snd(aa\_3n\_plus\_1\_depth\_pi(n \mdiv{} 2))) 7. \mneg{}(n = 1) 8. (n rem 2) = 0 9. (1 + (snd(aa\_3n\_plus\_1\_depth\_pi(n \mdiv{} 2))))\mdownarrow{} 10. 1 \mmember{} \mBbbZ{} 11. snd(aa\_3n\_plus\_1\_depth\_pi(n \mdiv{} 2)) \mmember{} \mBbbZ{} 12. (snd(aa\_3n\_plus\_1\_depth\_pi(n \mdiv{} 2))) \mgeq{} 0 13. \mexists{}m:\mBbbN{}. ((fst(aa\_3n\_plus\_1\_depth\_pi(n \mdiv{} 2)) \msim{} m) \mwedge{} ((n \mdiv{} 2) \mleq{} 2\^{}m)) \mvdash{} \mexists{}m:\mBbbN{}. ((fst(aa\_3n\_plus\_1\_depth\_pi(n)) \msim{} m) \mwedge{} (n \mleq{} 2\^{}m)) By ((D (-1) THEN InstConcl [\mkleeneopen{}1 + m\mkleeneclose{}] \mcdot{}) THEN Auto') Home Index