Alexey Abrikosov, jr . Institute of Theoretical and Experimental Physics, Moscow, Russia Andrei Varlamov COHERENTIA, CNR

1. Winter Alpine Physics Alexey Abrikosov, jr. Institute of Theoretical and Experimental Physics, Moscow, Russia Andrei Varlamov COHERENTIA, CNR-INFM, Rome, Italy

2. Speed scales 0 50 100 150 200 250 km/h

3. 248.1 km/hr! Harry Egger,Austria, 1999. Speed skiing Monte Rosa glacier underMatterhorn; Maximum gradient— 62°

4. LesArcs, France Speed skiing tracks

5. Harry Egger Physics

6. Free Fall Free fall from 1000 m

7. Wind tunnel

8. Physical factors in speed skiing • Gravity and angle • Air drag • Friction

9. Bobsleigh & Luge The sport of bobsleigh began at the end of 19th century when the Swiss attached a steering mechanism to a toboggan. In 1897, the world's first bobsleigh club was founded in St. Moritz, Switzerland. Eugenio Monti (Italy) won 11 world championships (1957–1968 );

10. Nagano, 1998, 4-man event Sigulda bob & luge track Track and speed

11. Addends of victory Push Ride Win!

12. Inertial frame Noninertial frame Centripetal versus centrifugal

13. New! New! Physical factors in bobsleigh • Initial impulse • Gravity • Air drag • Friction • Optimal trajectory

14. Luge speed record 139.4 km/h Tony Benshoof

15. A B The problem of optimal trajectory • What is the fastest way from A to B? • Is the straight way faster?

16. Galileo’s hypothesis — the circular arc? Brachistochrone What is the path of quickest descent from A to B? The minimal time problem

17. Mechanics —Maupertuis’ minimal action principle Optics — Fermat's minimal time principle Other minimum principles Brachistochrone— minimal time problem

18. Cycloid Johann Bernoulli, 1697

19. Alpine Skiing

20. Special Slalom

21. History of skiing • Cave drawing from Eastern Russia.(between 7000 and 5000 B.C.)

22. The bindings were made of twisted willow from birch-roots. Telemark skis. Sondre Norheim(Telemark County, Norway, XIX century) • New skis were shorter (about 2 m 40 cm) than other skis used at that time.

23. Fridtjof Nansen Norwegian arctic explorer, zoologist and statesman; Nobel Peace Prize 1922. 12 times national champion in skiing; World record for one-mile skating. The first to cross the mid-Greenland ice cap on skis (1888). 1890— book On Skis Over Greenland

24. Nansen Gallery

25. Telemark turn

26. stem (faster) wedge (slow) parallel turn — Christiania Basics of alpine skiing

27. Shiro Shimizu wedge stem Christiania Ski robots

28. Skidding Work against friction A is proportional to swept area S

29. No skidding • Easy to flex • Hard to twist • New geometry Hourglass contour widetip narrowwaist flared tail sidecut Carving revolution of 1990-ies

30. Grenoble, 1968 K.Schranz, Austria J.Heuga, USA G.Perillat, France Optimal trajectory

31. Main propelling force — Skiing without friction center of mass skis With and without friction

32. Swing and parametric resonace

33. center of mass skis Carving and acceleration

34. Center of mass in motion

35. center of mass skis Cross-country versus Alpine Cross country Alpine

36. swing center of mass center of mass center of mass Cross country Cross country skis skis feet Alpine Alpine Acceleration

37. What it looks like Ivica Kostelic, World Championin slalom, 2003

38. Energy conservation Altitude loss and speed gain

39. Acceleration (extension) Deceleration (flexion) Speed control • Passive — skidding and carving; • Active — flexion–extension.

40. a — acceleration; V — velocity; s — distance; Bad (pastime) skier Good (sportive) skier = Energy pumping –

41. New! winners; loosers Physical factors in alpine skiing • Gravity • Air drag (downhill, GS, SuperG) • Friction (skidding and carving) • Optimal trajectory (slalom) • Flexion-extension (slalom, GS)

42. Anton Sailer Jean-Claude Killy Gallery of Alpine Glory - I

43. Gustavo Thoeni Ingemar Stenmark Gallery of Alpine Glory - II

44. Alexander Zhirov Alberto Tomba Gallery of Alpine Glory - III

45. 1948 1972 Acknowledgements Yuriy Preobrajenskiy

46. Skiing is not the bliss but a perfect substitute