... as follows: vitamin A, at 15 :20 both for the 1st and the 2nd day; vitamin D2, at 14 :16 (1st day) and at 15 : 12 (2nd day); vitamin E, at 15 :48 (1st day) and at 16 :00 (2nd Page of (page number not ... F (11 ,44) = 22 .89, p < 0.00 01; vitamin D2, F (11 ,44) = 68.07, p < 0.00 01; vitamin E, F (11 ,44) = 11 .50, p < 0.00 01; vitamin K, F (11 ,44) = 12 . 27, p < 0.00 01 The application of the periodic model and ... Circadian Rhythms 20 04, 2: 3 http://www.jcircadianrhythms.com/content /2/ 1/ 3 References 10 11 12 Refinetti R: Circadian Physiology CRC Press, Boca Raton, FL; 20 00 Takahashi JS, Turek FW, Moore RY: Circadian...
... Forgotten Pandemic, The Influenza of 19 18 NY, NY: Cambridge University Press 19 89 Ewald PW Evolution of Infectious Disease NY, NY: Oxford University Press 19 94 Patterson KD, Pyle FG The Geography and ... and Mortality of the 19 18 Influenza Pandemic Bulletin of the History of Medicine 19 91; 65: 4- 12 Noyes WR Influenza Epidemic 19 18 -19 19: A Misplaced Chapter in the United States Social and Institutional ... host The 19 18 -19 19 Pandemic The onset of the 19 18 -19 19 influenza pandemic occurred in three waves The first wave, in the spring of 19 18, was relatively mild, starting from the Midwest and spreading...
... activity NPY is able to act through five different receptors (Y1 , Y2 , Y4 , Y5 and y6 ) that vary in their binding profiles and in their distribution in the central nervous system and periphery Y1 , Y2 and ... injury Fat tissue Hypothalamus NPY Leptin Y2 Circulating NPY Sympathic nervous system NPY NPY Y1 Y2 NPY Osteoblasts Fig NPY regulatory network NPY exerts its actions through both central and peripheral ... (20 03) Synergistic effects of Y2 and Y4 receptors on adiposity and bone mass revealed in double knockout mice Mol Cell Biol 23 , 522 5– 523 3 Elefteriou F, Takeda S, Liu X, Armstrong D & Karsenty...
... splitting K( X × Y ) ≈ K( X ∧ Y ) ⊕ K( X) ⊕ K (Y ) For a ∈ K( X) = Ker (K( X) K( x0 )) and b ∈ K (Y ) = Ker (K (Y ) K (y0 )) the ∗ ∗ ∗ external product a ∗ b = p1 (a)p2 (b) ∈ K( X × Y ) has p1 (a) restricting ... 1( A ) →− K 1( X ) →− K 1( X, A ) −− − −− − A product K i (X) ⊗ K j (Y ) K i+j (X ∧ Y ) is obtained from the external product K( X) ⊗ K (Y ) K( X Y ) by replacing X andY by S i X and S j Y If we ... ∼ ∼ ∼ K ( S 2X ) − K ( S 2A ) − K ( S ( X/A )) − K ( SX ) − K ( SA ) − K ( X/A ) − K ( X ) − K ( A) → → → → → → → ∼ ∼ ∼ ∼ ∼ ∼ ∼ ∼ K ( X ) − K ( A ) − K 1( X, A ) − K 1( X ) K 1( A) − K 0( X,...
... splitting K( X × Y ) ≈ K( X ∧ Y ) ⊕ K( X) ⊕ K (Y ) For a ∈ K( X) = Ker (K( X) K( x0 )) and b ∈ K (Y ) = Ker (K (Y ) K (y0 )) the ∗ ∗ ∗ external product a ∗ b = p1 (a)p2 (b) ∈ K( X × Y ) has p1 (a) restricting ... ∼ ∼ ∼ K ( S 2X ) − K ( S 2A ) − K ( S ( X/A )) − K ( SX ) − K ( SA ) − K ( X/A ) − K ( X ) − K ( A) → → → → → → → ∼ ∼ ∼ ∼ ∼ ∼ ∼ ∼ K ( X ) − K ( A ) − K 1( X, A ) − K 1( X ) K 1( A) − K 0( X, ... −− − A product K i (X) ⊗ K j (Y ) K i+j (X ∧ Y ) is obtained from the external product K( X) ⊗ K (Y ) K( X Y ) by replacing X andY by S i X and S j Y If we define K ∗ (X) = K (X) ⊕ K (X) , then...
... Galton), (1 8 21 -19 09), cousin Douglas Galton (1 822 -99), Royal Engineer, husband of Marianne Hilar y Bonham Carter (1 8 21 -65), cousin Henr y Bonham Carter (1 827 -1 9 21 ), cousin, secretar y, Nightingale ... nineteenth century see Life and Family (1: 61- 62 and 64-68) and Society and Politics (5: 12 9 -30, 16 6) 4 / Nightingale on Women, Medicine, Midwifery and Prostitution Employment and income security issues ... Adeline Paulina Irby (18 31- 1 911 ), friend Mar y Jones (18 12 - 87), nurse, Anglican nun Agnes Jones (18 32- 68), superintendent, Liverpool Workhouse Infirmar y (Dr) John Sutherland (18 08- 91) , public health...
... 20 9 21 0 21 0 21 2 21 3 21 5 21 5 21 6 21 7 21 8 22 0 22 0 22 1 22 2 Scheduling of Flexible Manufacturing Systems P e t e r B L u h 22 7 I n t r ... 4 .1 D e s c r i p t i o n of the F M S for A p p a r e l P r o d u c t i o n 22 7 22 8 22 8 22 9 22 9 22 9 23 0 23223223 3 23 3 23 4 xvi Table of Contents 4 .2 M a t h e m a ... 26 1 26 3 26 4 26 6 26 7 26 8 26 8 27 1 27 2 27 6 28 0 28 2 29 2 29 2 List of C o n t r i b u t o r s Antonio Bicchi Centro "E Piaggio" Universit& degli Studi di Pisa Via Diotisalvi 56 12 6 Pisa, Italy bicchi@piaggio,...
... 20 9 21 0 21 0 21 2 21 3 21 5 21 5 21 6 21 7 21 8 22 0 22 0 22 1 22 2 Scheduling of Flexible Manufacturing Systems P e t e r B L u h 22 7 I n t r ... 4 .1 D e s c r i p t i o n of the F M S for A p p a r e l P r o d u c t i o n 22 7 22 8 22 8 22 9 22 9 22 9 23 0 23223223 3 23 3 23 4 xvi Table of Contents 4 .2 M a t h e m a ... 26 1 26 3 26 4 26 6 26 7 26 8 26 8 27 1 27 2 27 6 28 0 28 2 29 2 29 2 List of C o n t r i b u t o r s Antonio Bicchi Centro "E Piaggio" Universit& degli Studi di Pisa Via Diotisalvi 56 12 6 Pisa, Italy bicchi@piaggio,...
... nest(G)) = (k, l) By an argument similar to the proof below of Fact 2, it can be shown that N 01 (∆7 ; 11 ; ne = 1, se = 2) = 20 = 21 = N 01 (∆7 ; 11 ; ne = 2, se = 1) Fact above is for 01 fillings, ... cros(G) = and nest(G) ≤ k; similarly, GL, k, 1 denotes the graphs in GL with cros(G) ≤ kand nest(G) = It is enough to show that |GL ,1, k | = |GL, k, 1 | We define a bijection from GL ,1, k to GL, k, 1 inductively ... 13 (20 06), #N 21 vertices x − and x of H , then relabel the vertices correspondingly to {1, 2, , n}, and then add the edge {1, x} (iv) Suppose rx = and rx 1 = in G Then H ahs n − vertices and...
... were: N 27 5 kg ha 1 as urea, P at 14 0 kg ha 1 as double superphosphate, andK at 24 8 kg ha 1 as muriate of potash All plots received Cu (2 kg ha 1) , Zn (4 kg ha 1) , Mn (2 kg ha 1) 2.2 Height and ... photosynthesis and water use efficiency in Douglas-fir, Tree Physiol 12 (19 93) 403– 410 [36] Monteith J.L., Evaporation and environment, Symp Soc Exp Biol 19 (19 65) 20 5 23 4 [37] Murphy J., Riley H.P., ... of climate and fertilisation on net photosynthesis of mature slash pine, Tree Physiol 14 (19 94) 12 1 5– 12 2 7 [ 52] Teskey R.O., Whitehead D., Linder S., Photosynthesis and carbon gain by pines, Ecol...
... Nakayama M, Yamaguchi N, Kojima Y, Nakano N, Tsuboi R, Okumura K, Yagita H, Ogawa H: Induction of RANTES by TWEAK/Fn14 interaction in human keratinocytes J Invest Dermatol 20 04, 12 2 :11 75 -11 79 ... phenotype of rabbit chondrocytes and osteoblastic MC3T3-E1 cells in vitro J Bone Miner Res 19 91, 6 :13 73 -13 85 Yasuda H, Shima N, Nakagawa N, Yamaguchi K, Kinosaki M, Mochizuki S, Tomoyasu A, Yano K, ... they have no competing interests Page of 10 (page number not for citation purposes) Arthritis Research & Therapy Vol No Ando et al References 10 11 12 13 14 15 16 17 18 19 Chicheportiche Y, Bourdon...
... 20 9 21 0 21 0 21 2 21 3 21 5 21 5 21 6 21 7 21 8 22 0 22 0 22 1 22 2 Scheduling of Flexible Manufacturing Systems P e t e r B L u h 22 7 I n t r ... 4 .1 D e s c r i p t i o n of the F M S for A p p a r e l P r o d u c t i o n 22 7 22 8 22 8 22 9 22 9 22 9 23 0 23223223 3 23 3 23 4 xvi Table of Contents 4 .2 M a t h e m a ... 26 1 26 3 26 4 26 6 26 7 26 8 26 8 27 1 27 2 27 6 28 0 28 2 29 2 29 2 List of C o n t r i b u t o r s Antonio Bicchi Centro "E Piaggio" Universit& degli Studi di Pisa Via Diotisalvi 56 12 6 Pisa, Italy bicchi@piaggio,...
... Wiley, New York [ 21 ] Tarn T J, Wu Y, Xi N, Isidori A 19 96 Force regulation and contact transition control IEEE Contr Syst Mag 16 (1) : 32- 40 [22 ] Whitney D E 19 87 Historic perspective and state of ... 3:377398 [16 ] Raibert M H, Craig J J 19 81 ttybrid position/force control of manipulators A S M E J Dyn Syst Mess Contr 10 3: 12 6 -13 3 [17 ] Rankers A M 19 97 Machine dynamics in mechatronic systems An ... W 19 88 Hybrid impedance control of robotic manipulators I E E E J Robot Automat 4:549-556 [2] Arimoto S 19 95 Fundamental problems of robot control: Parts I and II Robotica 13 :19 -27 , 11 1- 12 2 [3]...