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Physics 207: Lecture 2, Pg 1 Physics 207, Lecture 2, Sept. 11 Agenda for Today Assignment: Finish reading Ch. 2, begin Chapter 3 (3.1 and 3.2) l Acceleration,

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Presentation on theme: "Physics 207: Lecture 2, Pg 1 Physics 207, Lecture 2, Sept. 11 Agenda for Today Assignment: Finish reading Ch. 2, begin Chapter 3 (3.1 and 3.2) l Acceleration,"— Presentation transcript:

1 Physics 207: Lecture 2, Pg 1 Physics 207, Lecture 2, Sept. 11 Agenda for Today Assignment: Finish reading Ch. 2, begin Chapter 3 (3.1 and 3.2) l Acceleration, Direction (vectors) l WebAssign Problem Set 1 l Chapter 1, Chapter 2.1, 2.2  Units and length scales  Order of magnitude calculations  Significant Digits  Position, Displacement  Velocity, Speed

2 Physics 207: Lecture 2, Pg 2 Length: DistanceLength (m) Radius of Visible Universe 1 x 10 26 To Andromeda Galaxy 2 x 10 22 To nearest star 4 x 10 16 Earth to Sun 1.5 x 10 11 Radius of Earth Sears Tower 4.5 x 10 2 Football Field1.0 x 10 2 Tall person 2 x 10 0 Thickness of paper Wavelength of blue light Diameter of hydrogen atom Diameter of proton 1 x 10 -15 6.4 x 10 6 1 x 10 -4 4 x 10 -7 1 x 10 -10

3 Physics 207: Lecture 2, Pg 3 Order of Magnitude Calculations / Estimates Questions: What is the earth’s radius in meters? l Need to know something from your experience:  Flying from NYC to SF one accumulates ~ 3,000 miles  NYC to SF spans about 1/8 of the Earth’s circumference  So, the Earth’s circumference L = 3,000 x 8 ~ 24,000 mi  Since circumference of a circle is : L = 2  r  Estimate of Earth radius : 4 x 10 3 mi = 4 x 10 3 mi x 1.6 km/mi x 10 m/km ~ 6.4 x 10 3 km = 6 x 10 6 m

4 Physics 207: Lecture 2, Pg 4 Time: IntervalTime (s) Age of Universe 5 x 10 17 Age of Grand Canyon 3 x 10 14 Avg age of college student6.3 x 10 8 One year One hour Light travel from Earth to Moon One cycle of guitar A string 2 x 10 -3 One cycle of FM radio wave 6 x 10 -8 One cycle of visible light Time for light to cross a proton 1 x 10 -24 3.2 x 10 7 3.6 x 10 3 1.3 x 10 0 1 x 10 -15

5 Physics 207: Lecture 2, Pg 5 Mass: ObjectMass (kg) Visible universe ~ 10 52 Milky Way galaxy 7 x 10 41 Sun 2 x 10 30 Earth 6 x 10 24 Boeing 747 4 x 10 5 Car 1 x 10 3 Student 7 x 10 1 Dust particle 1 x 10 -9 Bacterium 1 x 10 -15 Proton 2 x 10 -27 Electron 9 x 10 -31

6 Physics 207: Lecture 2, Pg 6 Some Prefixes for Power of Ten PowerPrefix PowerPrefix Abbreviation 10 3 kilok 10 6 megaM 10 9 gigaG 10 12 teraT 10 15 petaP 10 18 exaE 10 -18 attoa 10 -15 femtof 10 -12 picop 10 -9 nanon 10 -6 micro  10 -3 millim

7 Physics 207: Lecture 2, Pg 7 Density l Every substance has a density, designated  = M/V Dimensions of density are, units (kg/m 3 ) See text : 1-3 Some examples, Substance  (10 3 kg/m 3 ) Gold19.3 Lead11.3 Aluminum 2.70 Water 1.00

8 Physics 207: Lecture 2, Pg 8 Atomic Density l In dealing with macroscopic numbers of atoms (and similar small particles) we often use a convenient quantity called Avogadro’s Number, N A = 6.023 x 10 23 atoms per mole l Commonly used mass units in regards to elements 1. Molar Mass = mass in grams of one mole of the substance (averaging over natural isotope occurrences) 2. Atomic Mass = mass in u (a.m.u.) of one atom of a substance. It is approximately the total number of protons and neutrons in one atom of that substance. 1u = 1.660 538 7 x 10 -27 kg See text : 1-3 What is the mass of a single carbon (C 12 ) atom ? = 2 x 10 -23 g/atom

9 Physics 207: Lecture 2, Pg 9 l This is a very important tool to check your work  Provides a reality check (if dimensional analysis fails then no sense in putting in the numbers; this leads to the GIGO paradigm) l Example When working a problem you get the answer for distance d = v t 2 ( velocity x time 2 ) Quantity on left side = L Quantity on right side = L / T x T 2 = L x T l Left units and right units don’t match, so answer is nonsense Dimensional Analysis See text : 1-4

10 Physics 207: Lecture 2, Pg 10 Converting between different systems of units l Useful Conversion factors:  1 inch= 2.54 cm  1 m = 3.28 ft  1 mile= 5280 ft  1 mile = 1.61 km l Example: Convert miles per hour to meters per second: Text : 1-5

11 Physics 207: Lecture 2, Pg 11 Lecture 2, Exercise 2 Converting between different systems of units l When on travel in Europe you rent a small car which consumes 6 liters of gasoline per 100 km. What is the MPG of the car ? (There are 3.8 liters per gallon.)

12 Physics 207: Lecture 2, Pg 12 Significant Figures l The number of digits that have merit in a measurement or calculation. l When writing a number, all non-zero digits are significant. l Zeros may or may not be significant.  those used to position the decimal point are not significant (unless followed by a decimal point)  those used to position powers of ten ordinals may or may not be significant. l In scientific notation all digits are significant l Examples: 21 sig fig 40ambiguous, could be 1 or 2 sig figs (use scientific notations) 4.0 x 10 1 2 significant figures 0.00312 significant figures 3.03 3 significant figures See text : 1-7

13 Physics 207: Lecture 2, Pg 13 Significant Figures l When multiplying or dividing, the answer should have the same number of significant figures as the least accurate of the quantities in the calculation. l When adding or subtracting, the number of digits to the right of the decimal point should equal that of the term in the sum or difference that has the smallest number of digits to the right of the decimal point. l Examples:  2 x 3.1 = 6  4.0 x 10 1 / 2.04 x 10 2 = 1.6 X 10 -1  2.4 – 0.0023 = 2.4 End of Chapter 1 See text : 1-7

14 Physics 207: Lecture 2, Pg 14 Motion in One-Dimension (Kinematics) Position / Displacement l Position is measured and referenced to an origin:  Joe is 10 feet to the right of the lamp  origin = lamp  direction = to the right  position vector : 10 meters Joe O -x +x 10 meters

15 Physics 207: Lecture 2, Pg 15 Position / Displacement l Displacement is just change in position.   X = x f - x i 10 meters 15 meters O xixi Joe xfxf  x = 5 meters

16 Physics 207: Lecture 2, Pg 16 Average speed and velocity Changes in position vs Changes in time Instantaneous velocity, velocity at a given instant l Speed is just the magnitude of velocity.  The “how fast” without the direction. Average velocity = total distance covered per total time, Average velocity = total distance covered per total time, Active Figure 2 Active Figure 1 http://www.phy.ntnu.edu.tw/ntnujava/main.php?t=282 http://www.phy.ntnu.edu.tw/ntnujava/main.php?t=230

17 Physics 207: Lecture 2, Pg 17 Recap If the position x is known as a function of time, then we can find both velocity v v t x t

18 Physics 207: Lecture 2, Pg 18 Recap of today’s lecture l Measurement and units (chapter 1)  Systems of units (Text: 1.1)  Density (Text: 1.3)  Converting between systems of units (Text: 1.5)  Dimensional Analysis (Text: 1.4)  Position and displacement  Velocity and speed l Reading for Wednesday’s class 9/13/06: » All of Chapter 2 » Chapter 3.1, 3.2 » Begin WebAssign Homework #1:

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