Scientific Notation -Scientists often work with very large or very small numbers -For example light travels at 300,000,000 meters per second -On the other.

Slides:

Advertisements

Similar presentations

Measurement and SI Units Section 1-3 in text. Using Scientific Notation A. Scientists often work with very ___________ or very ________ numbers. 1. Speed.

Advertisements

Measurement and SI Units

Chapter 2 – Scientific Measurement

SCIENTIFIC NOTATION, SIGNIFICANT DIGITS, & METRIC CONVERSIONS

S IGNIFICANT F IGURES. Significant figures Numbers known to have some degree of reliability Critical when reporting scientific data Tell accuracy of measurement.

The Fundamental Tools Of Science. Units Some fundamental measurements in all of science: Length Time Mass Many others are combinations of these: Energy,

Measurements Scientific Notation Significant Figures

1. Yes 2. No  Accuracy - How close a measurement is to the true value  Precision - How close a set of measurements are to one another.

Chapter 1 Sections 1.3 & 1.4.

Analyzing Data Chapter 2.

Scientific Measurement

1.3 Measurement NO NEW OPENER - FRIDAY, AUGUST 26, RECORD in openers as such... *Instead have out your notes packet and homework worksheet on desk.

How old are you. How tall are you

Chapter 1 Science Skills.

Analyzing Data Chapter 2. Units & Measurement – section 1  Chemists use an internationally recognized system of units to communicate their findings.

Physical Science Section 1.3

Physical Science Pages 14-20

1. To show how very large or very small numbers can be expressed in scientific notation 2. To learn the English, metric, and SI systems of measurement.

The Scientific Method 1. Using and Expressing Measurements Scientific notation is written as a number between 1 and 10 multiplied by 10 raised to a power.

Convert 33km to centimeters (cm) Show all steps and work!! (4x10 12 ) x (3x10 14 ) = ? 8 x  What is the difference between the measurement 14m and.

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.

Measuring and Units.

Using Scientific Notation  Scientific Notation is a way of expressing a value as the product of a number between 1 and 10 and a power of 10.  Scientific.

Measurements and Calculations 1. To show how very large or very small numbers can be expressed in scientific notation 2. To learn the English, metric,

The Importance of measurement Scientific Notation.

Chapter 2: analyzing data

Ch. 1 Sec. 3 Measurement. Scientific Notation  Expressing a value as the product of a number between 1 & 10 and a power of 10 Makes very large or small.

Section 5.1 Scientific Notation and Units 1.To show how very large or very small numbers can be expressed in scientific notation 2.To learn the English,

Chapter 3 Scientific Measurement Measurement In chemistry, #’s are either very small or very large 1 gram of hydrogen = 602,000,000,000,000,000,000,000.

The Metric System & Scientific Data p14-25 PS-1.3 PS-1.5.

Scientific Measurement Chpt 3. Units of Measure –general qualitative – describes matter – ex. Rough, shiny, heavy, blue quantitative – measures matter.

CHAPTER 3 NOTES Scientific Measurement. Measurement Qualitative measurements give results in descriptive, nonnumeric form. (Red balloon, tiny animal)

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.

Unit 2 Chapters 3 & 4. Review Qualitative measurement Qualitative measurement Uses descriptive wordsUses descriptive words Quantitative measurement Quantitative.

Chapter 3. Measurement Measurement-A quantity that has both a number and a unit. EX: 12.0 feet In Chemistry the use of very large or very small numbers.

Chapter 1 Section 3 Measurement. Objectives and Questions.

Measurements in Chemistry Aug 6, 2014 In the chemistry section of your notebook, Take Cornell style notes over the information presented in the following.

Review From Yesterday What is the base unit for length in the Metric System? What is the base unit for mass in the Metric System? What is the base unit.

Aim: How to write in Scientific Notation DO NOW: 1. WHAT DOES 10 5 MEAN? 2. WHAT IS THE VALUE OF USING YOUR CALCULATOR, CALCULATE 4.5 X 10 6.

Chapter 1 Science Skills. Science and Technology “Science” derives from Latin scientia, meaning “knowledge” Science: a system of knowledge and the methods.

Matter And Measurement 1 Matter and Measurement. Matter And Measurement 2 Length The measure of how much space an object occupies; The basic unit of length,

Ch 1 Science Skills Science involves asking questions about nature and then finding ways to answer them. 1 Brazfield.

SCIENTIFIC NOTATION Expressing a quantity as: a number between 1 and 10 multiplied by 10 to the appropriate power.

Bell Ringer 1. Name the following hazard signs: A. B. C. D. 2. What is the difference between PRECISION and ACCURACY? ACCURACY?

Measurement. Scientific Notation is a way of expressing a value as the product of a number between 1 and 10 and a power of 10. It makes very large or.

Chapter 1 Science Skills. Natural Science Physical Science _______________________ ______________ Geology, Astronomy Meteorology & Oceanography __________.

Measurement Vocab. Measurement: a quantity that has both a number and a unit Measuring: a description of your observation.

Scientific Notation. Can be also called standard form or exponential notation Can be also called standard form or exponential notation Used to write numbers.

MEASUREMENT. Scientific Notation Science often involves working with very large or very small numbers. Ex. Speed of light = 300,000,000 m/s Speed of snail.

1.3 Measurement How old are you? How tall are you? The answers to these questions are measurements. Measurements are important in both science and everyday.

1.3 Measurement How old are you? How tall are you? The answers to these questions are measurements. Measurements are important in both science and everyday.

1.3: Measurement and Scientific Notation

Objectives To show how very large or very small numbers can be expressed in scientific notation To learn the English, metric, and SI systems of measurement.

How old are you. How tall are you

1.3 Measurement Scientists work with very large or very small numbers

The International System (SI)

Bell-Ringer Define the following terms: 1. Metric System

How old are you. How tall are you

Bell-Ringer Define the following terms: 1. Metric System

Bell-Ringer Define the following terms: 1. Metric System

Scientific Notation Scientific notation takes the form: M x 10n

The International System (SI)

SCIENTIFIC NOTATION.

Scientific Notation Scientific notation takes the form: M x 10n

How old are you. How tall are you

Chapter 1.3 Notes Name: How old are you? How tall are you? The answers to these questions are measurements.

Ch 1 Science Skills Science involves asking questions about nature and then finding ways to answer them. Brazfield.

Scientific Measurements

Ruler a Ruler b Ruler c Were all of your measurements identical

Which tool on the left could you be the most precise with?

Presentation transcript:

Scientific Notation -Scientists often work with very large or very small numbers -For example light travels at 300,000,000 meters per second -On the other hand a snail on average travels about meter per second Scientific Notation is a way of expressing a number between 1 and 10 and a power of 10!!!

Scientific Notation Example: 300,000,000 is written in scientific notation as 3.0 X 10 The exponent 8 tells you that the decimal point is really 8 places to the right of the # 3 For numbers less than one they will have a negative exponent Example: is written as 8.6 X 10 The negative 4 exponent tells you how many places to the left 8.6

Scientific Notation When multiplying numbers in scientific notation, you multiply the numbers that appear before the multiplication signs and then ADD the exponents Example: To calculate how far light travels in 500 seconds, you multiply the speed of light by the number of seconds -Look at dry erase board!!!

Example ( 3.0 X 10 m/s) X (5.0 x 10 s) = 15 x 10 m = 1.5 x 10 m

Scientific Notation When dividing numbers written in scientific notation, you divide the numbers before the exponential terms and subtract the exponents Example: To calculate how long it takes for light from the sun to reach Earth, you would perform division -Look at dry erase board

Metric Prefixes It indicates how many times a unit should be multiplied or divided by 10 Figure 15 on page 17 -Example: You can write second as 9 milliseconds or 9 ms 9 ms = 9/1000 seconds = seconds

Metric Prefixes Conversion factor -It is a ratio of equivalent measurements that is used to convert a quantity expressed in one unit to another unit

Limits of Measurement Precision -Is a gauge of how exact a measurement is -Example: -Analog clock versus digital clock -Digital clock has more significant figures -Significant figure is all the digits that are known in a measurement, plus the last digit that is estimated

Limits of Measurement Accuracy -Is the closeness of a measurement to the actual value of what is being measured -Example: - Suppose a digital clock is running 15 minutes slow, although the clock would remain precise to the nearest second, the time displayed would still be wrong

Measuring Temperature Thermometer is a instrument that measures temperature, or how hot an object is Two main temperature scales -Farenheight and Celsius °F to °C, Deduct 32, then multiply by 5, then divide by 9 °C to °F, Multiply by 9, then divide by 5, then add 32

Measuring Temperature The SI unit for temperature is Kelvin (K) 0 k or 0 Kelvin refers to the lowest temperature that can be reached -In Celsius it is °C -To convert between Kelvins and degrees Celsius, use the following formula K = °C + 273