1. Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 2,3

2. Mechanics Various forms of motion: -mechanical -electromagnetic -thermal, etc. Mechanical form of motion is connected with displacements of various bodies relative to each other and with changes of the shapes of the bodies

3. Historical Notes History of mechanics linked with history of human culture Aristotle (384-322 B.C.); Physics Archimedes (3 rd century B.C.), the law of lever, the law of equilibrium for floating bodies Galileo Galilei (1564-1624), the basic law of motion

4. Archimedes (3rd century B.C.), the law of lever, the law of equilibrium for floating bodies GIVE ME A PLACE TO STAND AND I WILL MOVE THE EARTH

5. Galileo Galilei 1564-1642

6. “Father of modern science” Was the first to apply a scientific method: Put forward a hypothesis, verify it by experiment, describe it with a mathematical model Insisted that language of mathematics should describe the laws of nature and experiments should prove it. No place for arguments based on beauty, religion etc. Stephen Hawking: Galileo probably bears more of the responsibility for the birth of modern science than anybody else. Albert Einstein

7. Achievements in physics Verified that free-fall acceleration is independent on masses of bodies. This fact inspired Einstein’s General Relativity. Formulated the Principle of Relativity, which laid the framework for Newton’s laws and inspired Einstein’s Special Relativity. Proposed the Principle of Inertia, which was used (borrowed?) by Newton as his First Law. Found that the period of a pendulum is independent on its amplitude. He discovered it by observing swings of a bronze chandelier in the Cathedral of Pisa and using his pulse to measure the time!

8. Imagine you drop a light feather and a heavy coin from Albritton Bell Tower (138 ft.) Will they reach the ground at the same time? 384-322 B.C. Aristotle says : “No! The coin will land first because heavier objects fall faster than the lighter ones, in direct proportion to weight”. 1800 years later Galileo says : “Yes! A coin and a feather will land together if there is no air resistance!” 1564-1642

9. Free fall g-positive! On planet Earth, if you neglect air resistance, any body which is dropped will experience a constant acceleration, called g, independent of its size or weight. g=9.8 m/s 2 =32 ft/s 2

10. a v a = g = const for all bodies independently on their masses Galileo Galilei (1564-1624), the basic law of motion

12. Galileo's “Law of Falling Bodies” distance (S) is proportional to time (T) squared

13. Galileo’s notes

14. Free fall

15. Falling with air resistance

18. A New Era of Science

19. Newton’s law of gravitation

21. Clockwork universe

22. 1905 Albert Einstein "Gravitation cannot be held responsible for people falling in love.“ Albert Einstein

23. Derivatives Indefinite integrals Definite integrals Examples Overview of Today’s Class

24. Quiz 1. If f(x)=2x 3 what is the derivative of f(x) with respect to x? 6x 8x 2 I don’t know how to start 6x 2

25. 1. If f(x)=2x 3 evaluate 2x 4 I don’t know how to start 0.5x 4 +Const 2x 2 /3

26. 1. If f(x)=2x evaluate 2x 3 /3 I don’t know how to start 5 x 2 +Const

27. Derivatives A derivative of a function at a point is a slope of a tangent of this function at this point.

28. Derivatives

29. or Function x(t) is a machine: you plug in the value of argument t and it spits out the value of function x(t). Derivative d/dt is another machine: you plug in the function x(t) and it spits out another function V(t) = dx/dt

30. Derivative is the rate at which something is changing Velocity: rate at which position changes with time Acceleration: rate at which velocity changes with time Force: rate at which potential energy changes with position

31. Derivative is the rate at which something is changing -Size of pizza with respect to the price -Population of dolphins with respect to the sea temperature …………………

32. GDP per capita

33. Quiz 6x 2 +5 If what is the derivative of x(t) with respect to t? If f(x)=2x 3 +5x what is the derivative of f(x) with respect to x?

34. Indefinite integral (anti-derivative) A function F is an “anti-derivative” or an indefinite integral of the function f if

35. Indefinite integral (anti-derivative)

36. n – integer except n=-1

37. Definite integral F is indefinite integral

38. Definite integral

39. Integrals Indefinite integral: n – any number except -1 Definite integral:

40. Gottfried Leibniz These are Leibniz’ notations: Integral sign as an elongated S from “Summa” and d as a differential (infinitely small increment). 1646-1716

41. Leibniz-Newton calculus priority dispute

42. Motion in One Dimension (Chapter 2) We consider a particle - as time goes, the position of the particle changes

43. Velocity is the rate at which the position changes with time Average velocity:

44. You travel from CS to Houston. First 20 miles to Navasota you cover in 20 min. You make a 10 min stop in Navasota and continue for another 20 min until you reach Hempstead which is 20 miles from Navasota. There you make a 15 min stop for lunch. Then you continue the remain 50 miles to Houston and reach it in 35 min. Find your average velocity.

45. Acceleration is the rate at which the velocity changes with time Average acceleration

47. If a=a c =Const:

48. A “police car” problem x=0 x1x1 x2x2 V 3 =20m/s a=0 a p =kt x 2 – x 1 = 3.5 km V 1 =30m/sV 2 =40m/s You start moving from rest with constant acceleration. There is a police car hiding behind the tree. The policeman has a metric radar. He measures your velocity to be 30 m/s. While the policeman is converting m/s to mph, you continue accelerating. You meet another police car. This policeman measures your velocity to be 40 m/s. You also notice the police, drop your velocity to 20 m/s and start moving with a constant velocity. However, it is too late. This police car starts chasing you with acceleration kt (k is a constant). After some distance he catches you. a=const V(t=0)=0

49. A “police car” problem x=0 x1x1 x2x2 V 3 =20m/s a=0 a p =kt x 2 – x 1 = 3.5 km V 1 =30m/sV 2 =40m/s 1. What was your acceleration before you meet the second police car? 2. How long did you travel from x 1 to x 2 ? 3. Find x 1 4. At which distance does the police car catch you? 5.Convert the velocity from m/s to mph a=const V(t=0)=0

50. Have a great day! Reading: Chapter 1