Ch. 1, Physics & Measurement

Similar documents
Chapter 1 Introduction, Measurement, Estimating

2053 College Physics. Chapter 1 Introduction

Lecture PowerPoints. Chapter 1 Physics: Principles with Applications, 7 th edition Giancoli

Kinematics Unit. Measurement

Raymond A. Serway Chris Vuille. Chapter One. Introduction

2 Standards for Measurement. Careful and accurate measurements of ingredients are important both when cooking and in the chemistry laboratory!

Measurement. Scientific Notation. Measurements and Problem Solving. Writing Numbers in Scientific Notation

Physics: Principles with Applications, 6 th edition

Welcome to the Cytobiology and Proteomics Unit at the Department of Biomedical Sciences. Radosław Bednarek, Ph.D.

Scientific Method. Why Study Chemistry? Why Study Chemistry? Chemistry has many applications to our everyday world. 1. Materials. Areas of Chemistry

Introductory Chemistry: A Foundation, 6 th Ed. Introductory Chemistry, 6 th Ed. Basic Chemistry, 6 th Ed.

Measurements and Calculations. Chapter 2

Chemistry Section Review 2.2

Chapter 1 Review Problems (Done in Class)

Uncertainty in Measurements

Unit 1 Part 1: Significant Figures and Scientific Notation. Objective understand significant figures and their rules. Be able to use scientific

Chapter 2 - Measurements and Calculations

Analyzing Data. Units and Measurement In your textbook, read about SI units. STUDY GUIDE. Section 2.1 CHAPTER 2. Complete the following table.

Physics Mechanics. Lecture 1 Physics and the Laws of Nature

Every time a measurement is taken, we must be aware of significant figures! Define significant figures.

Notes Chapter 2: Measurements and Calculations. It is used to easily and simply write very large numbers, and very small numbers.

Course: Phys-109 General Physics I. Text book: Physics, 6 th edition, D. C. Giancoli.

Section 1 Scientific Method. Describe the purpose of the scientific method. Distinguish between qualitative and quantitative observations.

Measurement and Chemical Calculations. Measurement and Chemical Calculations

Lecture PowerPoints. Chapter 1 Physics for Scientists & Engineers, with Modern Physics, 4 th edition Giancoli

Section 1 What Is Physics? Chapter 1. The Branches of Physics. Houghton Mifflin Harcourt Publishing Company

Accuracy of Measurement: how close your measured value is to the actual measurement

1.1 Units and unit conversions

Measurements in Chemistry

Today s lecture. WEST VIRGINIA UNIVERSITY Physics

PH 221-1D Spring 2013

Physics for Scientists and Engineers. Chapter 1 Concepts of Motion

SCIENTIFIC MEASUREMENT C H A P T E R 3

Chapter 1 : Introduction

Chapter 2: Standards for Measurement. 2.1 Scientific Notation

Text book. Tenth edition. Walker, Halliday and Resnick. Principles of physics.

ASTRO 1050 LAB #1: Scientific Notation, Scale Models, and Calculations

MEASUREMENT AND PROBLEM SOLVING. Chapter 3 & 4

Scientific Method, Units of Measurement, Scientific Notation, Significant Figures BASICS OF PHYSICAL SCIENCE

Lecture 1. Chapter 1 (Halliday/Resnick/Walker, Fundamentals of Physics 8 th edition)

Chapter COURSE NAME: CHEMISTRY 101 COURSE CODE:

Chapter 2 Measurements & Calculations. Quantity: A thing that can be measured. ex. Length (6.3 ft), mass (35 kg), and time (7.2 s)

Engineering Statics ENGR 2301 Chapter 1. Introduction And Measurement

EXPERIMENT MEASUREMENT

Measurements. October 06, 2014

Chapter 2. Preview. Objectives Scientific Method Observing and Collecting Data Formulating Hypotheses Testing Hypotheses Theorizing Scientific Method

In your textbook, read about base units and derived units. For each SI unit in Column A, write the letter of the matching item from Column B.

Measurement Chapter 1.6-7

What are these standards? Who decides what they are? How many Standards should we have?

Welcome to Chemistry 121

Units and Dimensionality

Base unit-a defined unit of measurement based on an object or event in the physical world. Length

Chapter 3 Scientific Measurement

Chapter 2 - Analyzing Data

1. Metric system- developed in Europe (France) in 1700's, offered as an alternative to the British or English system of measurement.

αα Measuring Global Temperatures 2.1 Measuring Global Temperatures Introductory Chemistry Fourth Edition Nivaldo J.

The number of stars in a galaxy is an example of an estimate that should be expressed in scientific notation.

Solving Problems with Labeled Numbers

Measurement and Uncertainty

Ch. 2 Notes: ANALYZING DATA MEASUREMENT NOTE: Vocabulary terms are in boldface and underlined. Supporting details are in italics.

Unit 3 - Physics. Motion. Intro to Measurements

Scientific Measurement

Review of Scientific Notation and Significant Figures

CHAPTER 9 : Motion Physics Intro to MEASUREMENTS

Introductory Chemistry Fifth Edition Nivaldo J. Tro

In recording measurements, it is necessary to understand 1. SIGNIFICANCE of numbers 2. importance of UNITS.

Chemistry Basic Science Concepts. Observations: are recorded using the senses. Examples: the paper is white; the air is cold; the drink is sweet.

Chapter 1 (Part 2) Measurements in Chemistry 1.6 Physical Quantities

Ch. 2 Notes: ANALYZING DATA MEASUREMENT NOTE: Vocabulary terms are in boldface and underlined. Supporting details are in italics.

General Physics (PHY 170) Physics and the Laws of Nature

G302 - Basics Review of Math and Algebra

Chem 115 POGIL Worksheet - Week 1 Units, Measurement Uncertainty, and Significant Figures

Umm Al-Qura University Dr. Abdulsalam Ali. Physics 101. Lecture 1. Lecturer: Dr. Abdulsalam Ali Soud

Significant Figures. Accuracy how close of a measurement to the exact measurement

Module 4 Conversion Factors

precision accuracy both neither

Section 1 Scientific Method. Describe the purpose of the scientific method. Distinguish between qualitative and quantitative observations.

HW #1: 1.42, 1.52, 1.54, 1.64, 1.66, 1.70, 1.76, 1.78, 1.80, 1.82, 1.84, 1.86, 1.92, 1.94, 1.98, 1.106, 1.110, 1.116

How do physicists study problems?

3.3 Solving Conversion Problems > Chapter 3 Scientific Measurement. 3.3 Solving Conversion Problems. 3.1 Using and Expressing Measurements

An Overview of the General Procedure

Chemistry: The Study of Change Chang & Goldsby 12 th edition

Pre-Lab 0.2 Reading: Measurement

Measurements UNITS FOR MEASUREMENTS

Chapter 1. Units, Physical Quantities, and Vectors

Unit 3.4 Dimensional Analysis

MEASUREMENT CALCULATIONS AND. Chapter 2 Chemistry I

Chemistry 1. Worksheet 2. Units and Unit Conversions. 1 MathTutorDVD.com

Scientific Notation. Part A: Express each of the following in standard form x x x

I. Chemistry and the Scientific method

UNIT 1: NATURE OF SCIENCE

Metric Prefixes UNITS & MEASUREMENT 10/6/2015 WHY DO UNITS AND MEASUREMENT MATTER?

Mechanics Units, Dimensional Analysis, and Unit Conversion

Notes. In order to make numbers more "friendly" looking, the metric system sometimes uses prefixes in the front of the base units.

DESCRIBING MATTER. Matter is anything that has mass and volume

Physics for Engineering I PHYS 1210

Name Date Class MEASUREMENTS AND THEIR UNCERTAINTY

Chapter 3A. Measurement and Significant Figures

Today is Thursday, February 11 th, 2016

Transcription:

Ch. 1, Physics & Measurement

Outline Ch. 1, Physics & Measurement 1. Physics is an experimental science Measurements Units 2. Physics is a quantitative science Mathematics Algebra & Calculus 3. International System (SI) of units: Length m, Time s, Mass kg Objects have different sizes Conversion of units 4. Other properties of matter require the use of derived units: ρ = m/v density unit: kg/m 3 If you know the formula You can find the units If you know the units You can guess the formula!

Physics: The most basic of all sciences! Physics: The Mother of all sciences! Physics = The study of the behavior of and the structure of matter and energy and of the interaction between matter and energy.

Physics: General Discussion Goal of Physics (& all of science): To quantitatively and qualitatively describe the world around us. Physics IS NOT merely a collection of facts and formulas! Physics IS a creative activity! Physics Observation Explanation. Requires IMAGINATION!!

Physics & its relation to other fields The Mother of all Sciences! The foundation for and is connected to ALL branches of science and engineering. Also useful in everyday life and in MANY professions Chemistry Life Sciences Architecture Engineering..

Theory Quantitative description of experimental observations. Not just WHAT is observed but WHY it is observed as it is and HOW it works the way it does. Tests of theories: Experimental observation: More experiments, more observation. Predictions: Made before observations & experiments.

Model, Theory, Law Model: An analogy of a physical phenomenon to something we are familiar with. Theory: More detailed than a model. Puts the model into mathematical language. Law: Concise & general statement about how nature behaves. Must be verified by many, many experiments! Only a few laws. Not comparable to laws of government!

Measurement & Uncertainty Physics is an EXPERIMENTAL science! Finds relations between physical quantities. Expresses those relations in the language of mathematics. (LAWS & THEORIES) Experiments are NEVER 100% accurate. Always have uncertainty in final result. Experimental error. Common to state this precision (when known).

Consider a simple measurement of the width of a board. Find 23.2 cm. However, measurement is only accurate to 0.1 cm (estimated). Write width as (23.2 0.1) cm 0.1 cm Experimental uncertainty Percent Uncertainty: (0.1/23.2) 100 0.4%

Significant Figures Significant figures ( sig figs ) The number of reliably known digits in a number. Calculation involving several numbers. Number of sig figs in result Number of sig figs of the number containing the smallest number of sig figs which entered the calculation.

Example: (Not to scale!) Area of board, dimensions 11.3 cm 6.8 cm Area = (11.3) (6.8) = 76.84 cm 2 11.3 has 3 sig figs, 6.8 has 2 sig figs 76.84 has too many sig figs! Proper number of sig figs in answer = 2 Round off 76.84 & keep only 2 sig figs Reliable answer for area = 77 cm 2

Sig Figs General Rule: Final result of multiplication or division should have only as many sig figs as the number with least sig figs in the calculation. NOTE!!!! All digits on your calculator are NOT significant!!

Powers of 10 (Scientific Notation) READ Appendix B.1 Common to express very large or very small numbers using powers of 10 notation. Examples: 39,600 = 3.96 10 4 (moved decimal 4 places to left) 0.0021 = 2.1 10-3 (moved decimal 3 places to right)

Units, Standards, SI System All measured physical quantities have units. Units are VITAL in physics!! In this course (and in most of the modern world, except the USA!) we will use (almost) exclusively the SI system of units. SI = Systéme International (French) More commonly called the MKS system (meter-kilogram-second) or more simply, the metric system

SI or MKS System Defined in terms of standards for length, mass (we ll discuss later), and time. Length unit: Meter (m) (kilometer = km = 1000 m) Standard meter. Newest definition in terms of speed of light Length of path traveled by light in vacuum in (1/299,792,458) of a second! Time unit: Second (s) Standard second. Newest definition time required for 9,192,631,770 oscillations of radiation emitted by cesium atoms! Mass unit: Kilogram (kg) Discussed in detail later

Larger & smaller units defined from SI standards by powers of 10 & Greek prefixes

Typical Lengths (approx.)

Typical Times & Masses (approx.)

Other Systems of Units CGS (centimeter-gram-second) system Centimeter = 0.01 meter Gram = 0.001 kilogram British (foot-pound-second) system Our everyday life system of units Only used by USA and some third world countries. Rest of world (including Britain!) uses SI system. We will not use the British System in this course! Conversions exist between the British & SI systems. We will not use them in this course!

In this class, we will NOT do unit conversions! We will work exclusively in SI (MKS) units!

Basic & Derived Quantities Basic Quantity Must be defined in terms of a standard (meter, kilogram, second). Derived Quantity Defined in terms of combinations of basic quantities Unit of speed = meter/second = m/s

Units and Equations In dealing with equations, remember that the units must be the same on both sides of an equation (otherwise, it is not an equation)! Example: You go 90 km/hr for 40 minutes. How far did you go? Equation from Ch. 2: x = vt, v = 90 km/hr, t = 40 min. To use this equation, first convert t to hours: t = (⅔)hr so, x = (90 km/hr) [(⅔)hr] = 60 km The hour unit (hr) has (literally) cancelled out in the numerator & denominator!

Changing Units As in the example, units in the numerator & the denominator can cancel out (as in algebra) Illustration: Convert 80 km/hr to m/s Conversions: 1 km = 1000 m; 1hr = 3600 s 80 km/hr = (80 km/hr) (1000 m/km) (1hr/3600 s) (Cancel units!) Useful conversions: 80 km/hr 22 m/s (22.222 m/s) 1 m/s 3.6 km/hr; 1 km/hr (1/3.6) m/s

Order of Magnitude; Rapid Estimating Sometimes, we are interested in only an approximate value for a quantity. We are interested in obtaining rough or order of magnitude estimates. Order of magnitude estimates: Made by rounding off all numbers in a calculation to 1 sig fig, along with power of 10. Can be accurate to within a factor of 10 (often better)

Example: Estimate! Example: V = πr 2 d

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback