General Physics (PHY 2130)
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1 General Physics (PHY 2130) Lecture 2 Significant figures Units Graphs Chapter 1
2 WebAssign issues?
3 Lightning Review Last lecture: 1. Introduction to physics and relevant math Scientific notation, percentages, etc. Units: meter, kilogram, second (definitions) Review Problem: A firefighter attempts to measure the height of the building by walking out a distance of 46.0 m from its base and shining a flashlight beam towards its top. He finds that when the beam is elevated at an angle of 39.0, the beam just strikes the top of the building. Find the height of the building.
4 Problem Solving Strategy
5 Problem Solving Strategy Given: angle: distance: θ = 39.0 d = 46.0m Find: Height=? Fig. 1.7, p.14 Slide 13 Key idea: beam of light, building wall and distance from the building to the firefighter form a right triangle! Know: angle and one side, need to determine another side. NOTE: tangent is defined via two sides! height of building tanα =, dist. height = dist. tanα = (tan39.0 )(46.0 m) = 37.3 m Evaluate answer: 1. Makes sense (a 37 m building is Ok) 2. Units are correct.
6 1. Dimensions and Dimensional Analysis Dimensions are basic types of quantities that can be measured or computed. Examples are length, time, mass, electric current, and temperature. A unit is a standard amount of a dimensional quantity. There is a need for a system of units. SI units will be used throughout this class.
7 Dimensions Dimension denotes the physical nature of a quantity dimension of some quantity, say, Q is denoted [Q] Dimensional analysis is a technique to check the correctness of an equation Dimensions (length, mass, time, combinations) can be treated as algebraic quantities add, subtract, multiply, divide quantities added/subtracted only if have same units Both sides of equation must have the same dimensions
8 Dimensions Dimensions for commonly used quantities Length L m (SI) Area L 2 m 2 (SI) Volume L 3 m 3 (SI) Velocity (speed) L/T m/s (SI) Acceleration L/T 2 m/s 2 (SI) Example of dimensional analysis distance = velocity time L = (L/T) T
9 Example: Use dimensional analysis to determine how the period of a pendulum depends on mass, the length of the pendulum, and the acceleration due to gravity (here the units are distance/time 2 ). Mass of the pendulum [M] Length of the pendulum [L] Acceleration of gravity [L/T 2 ] The period of a pendulum is how long it takes to complete 1 swing; the dimensions are time [T]. Solution: since the right dimension for the period is [T], we can get it from the quantities above as [ period] = [T ] = [L] [L / T 2 ] = [length of the pendulum] [acceleration of gravity] 9
10 Derived unit A derived unit is composed of combinations of base units. Example: The SI unit of energy is the joule. 1 joule = 1 kg m 2 /sec 2 Derived unit Base units
11 2. Conversions When units are not consistent, you may need to convert to appropriate ones Units can be treated like algebraic quantities that can cancel each other out 1 mile = 1609 m = km 1 ft = m = cm 1m = in = ft 1 in = m = 2.54 cm
12 Example 1. Scotch tape: Example 2. Trip to Canada: Legal freeway speed limit in Canada is 100 km/h. What is it in miles/h? 100 km km 1 mile miles = h h km h
13 Example 3. The density of air. The density of air is 1.3 kg/m 3. Change the units to slugs/ft 3. 1 slug = kg 1 m = 3.28 feet 1.3 kg m 3 1slug 1m 3 3 = slugs/ft kg 3.28 feet 13
14 Prefixes Prefixes correspond to powers of 10 Each prefix has a specific name/abbreviation Power Prefix Abbrev peta P 10 9 giga G 10 6 mega M 10 3 kilo k 10-2 centi P 10-3 milli m 10-6 micro µ 10-9 nano n Distance from Earth to nearest star 40 Pm Mean radius of Earth 6 Mm Length of a housefly 5 mm Size of living cells 10 µm Size of an atom 0.1 nm
15 Example: An aspirin tablet contains 325 mg of acetylsalicylic acid. Express this mass in grams. Given: m = 325 mg Find: Solution: Recall that prefix milli implies 10-3, so 3 m= 325 mg = g = g m (grams)=?
16 4. Uncertainty in Measurements There is uncertainty in every measurement, this uncertainty carries over through the calculations need a technique to account for this uncertainty We will use rules for significant figures to approximate the uncertainty in results of calculations
17 Significant Figures A significant figure is one that is reliably known All non-zero digits are significant Zeros are significant when between other non-zero digits after the decimal point and another significant figure can be clarified by using scientific notation = significant figures = significant figures = significant figures
18 Operations with Significant Figures Accuracy -- number of significant figures Example: meter stick: ± 0.1 cm When multiplying or dividing, round the result to the same accuracy as the least accurate measurement Example: rectangular plate: 4.5 cm by 7.3 cm area: cm 2 33 cm 2 2 significant figures When adding or subtracting, round the result to the smallest number of decimal places of any term in the sum Example: 135 m m = 141 m
19 Order of Magnitude Approximation based on a number of assumptions may need to modify assumptions if more precise results are needed Question: McDonald s sells about 250 million packages of fries every year. Placed back-to-back, how far would the fries reach? Solution: There are approximately 30 fries/package, thus: (30 fries/package)( packages)(3 in./fry) ~ in ~ m, which is greater then Earth-Moon distance ( m)! Order of magnitude is the power of 10 that applies Example: John has 3 apples, Jane has 5 apples. Their numbers of apples are of the same order of magnitude
20 Important! Order-of-magnitude estimates can be helpful in determining whether the answer you compute for a problem is reasonable. Example: If you are asked to calculate the weight of a car, and come up with an answer of 10 lbs, you should re-check your calculation.
21 Graphs Experimenters vary a quantity (the independent variable) and measure another quantity (the dependent variable). Dependent variable here Independent variable here 21
22 Be sure to label the axes with both the quantity and its unit. For example: Position (meters) Time (seconds) 22
23 Example: A nurse recorded the values shown in the table for a patient s temperature. Plot a graph of temperature versus time and find (a) the patient s temperature at noon, (b) the slope of the graph, and (c) if you would expect the graph to follow the same trend over the next 12 hours? Explain. The given data: Time Decimal time Temp ( F) 10:00 AM :30 AM :00 AM :30 AM :45 PM
24 temp (F) time (hours) 24
25 (a) Reading from the graph: F. (b) slope = T2 T F F = = 0.9 F/hour t t 12.0 hr 10.0 hr 2 1 (c) No. 25
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