Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 1 Measurement and Problem Solving

Published byErika Lindström Modified over 4 years ago

Similar presentations

Presentation on theme: "Chapter 1 Measurement and Problem Solving"— Presentation transcript:

1 Chapter 1 Measurement and Problem Solving
August 19 SI unites and the metric system 1.2 SI Units of Length, Mass, and Time Physics studies the laws of the motion of the world. Physics describes the nature through measurement. All measurements are expressed in units. Standard units are established by a government or an international organization. There are two major systems of units: metric and British (mainly used by the U.S.). Physics has adopted the SI units (International system of units, French Systéme Internationale d’Unités), which is based on the metric system. The units of length, mass, and time: Length, mass, and time are fundamental quantities in mechanics. The SI unit of length is the meter. The original definition of a meter used the size of the earth. From north pole to the equator is km. Modern definition of a meter is the distance that light travels in vacuum in 1/ s.

2 Relations between the SI units and the British units: SI unit
The SI unit of mass is the kilogram. The original definition of a kilogram was the mass of one liter of water. Currently the standard kilogram is a platinum-iridium cylinder kept at the French Bureau of Weights and Measures. The SI unit of time is the second. The original definition of a second, of course, was from a solar day. Modern definition of a second is oscillations of the radiation from the cesium-133 atom. Thumb rule: The distance from ground to your belt is about one meter. The mass of two bottles of drinking water is about one kilogram. Relations between the SI units and the British units: SI unit Abbreviation British unit Relation length meter m foot ft 1 m = 3.28 ft 1 ft = m time second s 1 s = 1 s mass kilogram kg pound-mass lbm 1 kg = 2.20 lbm 1 lbm=0.454 kg

3 Importance of using units:
When you are writing a physical quantity, never forget its unit, whether it is in the middle of your calculation or it is the final result. Seven base units of the SI: In addition to length, mass, and time, base units in the SI system include electric current, temperature, amount of substance, and luminous intensity. These seven units are believed to be able to describe all phenomena in nature.

4 1.3 More about the Metric System
In the metric system, units of the same type of quantity are related by factors of 10. Here are some common prefixes:

5 Read: Ch1: 1-3 Homework: Ch1: E (means Exercise)7 Due: August 30

6 August 21 Unit conversion and significant figures 1.4 Unit Analysis
A powerful way to pre-check your calculations is to use unit analysis. For an equation to stand true, not only must the numerical values on both sides of an equation be equal, the units must be equal as well. Only two quantities of similar units can be added or subtracted. Example 1.2: Checking Dimensions: Unit Analysis Additional Example: A student finds that the surface area of a cylinder is Can this equation be true?

7 1.5 Unit Conversions A conversion factor expresses two equal quantities in different units in a ratio form which always equals to one. Unit conversion: Example: 65 mile/hr = ? meter/second. Method 1: Multiply or divide by a conversion factor. Method 2: Direct substitution.

8 1.6 Significant figures Calculations contain two types of numbers: exact numbers and measured numbers. The significant figures in a measurement usually include some digits that are known with certainty, plus one digit that is uncertain. Example: the thickness of our text is 39.4 mm. Here 39 mm is thought to be certain, and 0.4 mm is estimated. The significant figures in a given number start from the first non-zero digit and ends at the last digit (no matter it is zero or not). Example: 39.4 has three significant figures, while has four. Rules of significant figures in calculations: 1. When multiplying and dividing quantities, leave as many significant figures in the answer as there are in the given quantity with the least number of significant figures. 2. When adding or subtracting quantities, leave the same number of decimal places (rounded) in the answer as there are in the given quantity with the least number of decimal places. Example 1.7: Using Significant Figures in Multiplication and Division: Rounding Applications Example 1.8: Using Significant Figures in Addition and Subtraction: Application of Rules

9 Read: Ch1: 4-7 Homework: Ch1: E9,26,43,45,47 Due: August 30

Download ppt "Chapter 1 Measurement and Problem Solving"

Similar presentations

Introduction, Measurement, Estimating

Introduction, Measurement, Estimating
Introduction to Physics

Introduction to Physics
Chapter 1. Measurement 1.What is Physics? 2. Measuring Things

Chapter 1. Measurement 1.What is Physics? 2. Measuring Things
Dimensions of Physics. The essence of physics is to measure the observable world and describe the principles that underlie everything in creation. This.

Dimensions of Physics. The essence of physics is to measure the observable world and describe the principles that underlie everything in creation. This.
© 2007 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2007 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.
Physics for Scientists and Engineers

Physics for Scientists and Engineers
Introduction and Chapter 1

Introduction and Chapter 1
Chapter 1 Measurement and Problem Solving

Chapter 1 Measurement and Problem Solving
Why do we need it? Because in chemistry we are measuring very small things like protons and electrons and we need an easy way to express these numbers.

Why do we need it? Because in chemistry we are measuring very small things like protons and electrons and we need an easy way to express these numbers.
Ch 3 Scientific Measurement

Ch 3 Scientific Measurement
Chapter 1 Matter and Measurement. What is Chemistry? The study of all substances and the changes that they can undergo The CENTRAL SCIENCE.

Chapter 1 Matter and Measurement. What is Chemistry? The study of all substances and the changes that they can undergo The CENTRAL SCIENCE.
PHYSICS AND MEASUREMENT. FUNDAMENTAL QUANTITIES SI units:  Time – second  Mass – Kilogram  Length – meter.

PHYSICS AND MEASUREMENT. FUNDAMENTAL QUANTITIES SI units:  Time – second  Mass – Kilogram  Length – meter.
College Physics, 7th Edition

College Physics, 7th Edition
Essentials of College Physics --Serway/Vuille

Essentials of College Physics --Serway/Vuille
Units, Standards, SI System

Units, Standards, SI System
Chapter 2 Data Analysis. I. SI Units Scientists adopted a system of standard units so all scientists could report data that could be reproduced and understood.

Chapter 2 Data Analysis. I. SI Units Scientists adopted a system of standard units so all scientists could report data that could be reproduced and understood.
Sinai University Faculty of Engineering Science Department of Basic Science 11/23/2015 1.

Sinai University Faculty of Engineering Science Department of Basic Science 11/23/
Chapter 1 Introduction. Theories and Experiments The goal of physics is to develop theories based on experiments A theory is a “guess,” expressed mathematically,

Chapter 1 Introduction. Theories and Experiments The goal of physics is to develop theories based on experiments A theory is a “guess,” expressed mathematically,
METRIC AND MEASUREMENTS Scientific Notation Significant Digits Metric System Dimensional Analysis.

METRIC AND MEASUREMENTS Scientific Notation Significant Digits Metric System Dimensional Analysis.
Objectives Describe the purpose of the scientific method. Distinguish between qualitative and quantitative observations. Describe the differences between.

Objectives Describe the purpose of the scientific method. Distinguish between qualitative and quantitative observations. Describe the differences between.

Similar presentations

Ads by Google