Contents MEASUREMENT Units Measurement of Length Measurement of Volume

Slides:



Advertisements
Similar presentations
Theory of Measurements. Measurement of length and time accurate measurement There are two main types of errors: Random Errors Systematic Errors Staterandomconstant.
Advertisements

Mass, Weight and Density
Scientific Measurement
Measurements and units Numbers and units A system of units Measuring length and time Volume and density Measuring volume and density.
Metric System Measurement.
Determining Density. In order to be able to determine densities we should learn: Units Measurement of Length Measurement of Volume Measuring Mass and.
Chapter 2 – Section 2 Suggested Reading Pages 33-42
Do Now: Accuracy & Precision Draw two bullseyes. On one, show three darts that are accurate. On the other, show three darts that are precise.
Physical Quantities and Units
1. 2 Science is based on empiricism -a search for knowledge based on experimentation and observation. Observations can be either qualitative or quantitative.
Warm Up.095 Km = ____ dm.095 Km = ____ dm 0.50 mg = _____ g 0.50 mg = _____ g 23 L = ______mL 23 L = ______mL 62.5 decameter= _____cm 62.5 decameter= _____cm.
Chapter 2 - Introduction to instruments and units used.
Discover PHYSICS for GCE ‘O’ Level Science
@earthscience92. What is Matter? Matter – Anything that has mass and takes up space (volume) – Makes up most materials. – Can you think of something that.
Physical Quantities, Units and Measurement T H E M E O N E : M E A S U R E M E N T C h a p t e r Physical Quantities A physical quantity is one that.
Mass and weight Gravitational fields Density
PHYSICS – Density. LEARNING OBJECTIVES 1.4 Density Core Recall and use the equation ρ = m/V Describe an experiment to determine the density of a liquid.
CHAPTER 1, SECTION 2 Standards of Measurement. IS AN EXACT QUANTITY THAT PEOPLE AGREE TO USE TO COMPARE MEASUREMENTS WHY WOULD A STANDARD BE IMPORTANT?
Matter. What is The Metric System? 1.It is known as System of International Units or (SI) 2.Most countries use the metric system except the U.S. 3.It.
1 Chapter 1 Measurement What is Physics? Physics is the study of Matter and Energy. This includes sub-topics like: General Physics Thermal Physics.
Chapter 2 Measurements and Calculations
Scientific Measurement
Chapter 1 The Nature of Science.
Section 1-3: Measurement
one kilometer = 0.62 miles 60 km/h = 37.2 mi/h
Introduction To Chemistry
Measurement.
What is Matter? I can describe the two properties of all matter.
Dimensions & Unit Conversions
Unit 1 Lesson 1 Introduction to Matter Essential Question:
Syllabus Structure.
Chapter 2 Preview Objectives Units of Measurement SI Measurement
II. Units of Measurement (p )
Unit 1 Lesson 1 Introduction to Matter Essential Question:
The Metric System.
Introduction to Metrics
SCIENTIFIC MEASUREMENT
2015 Physics WoF Start the year right with a .
Description and Measurement
Mass and Density Have Fun !!!
Lab Skills Physical Quantities Uncertainty SI Units Prefixes
Scientific Measurement
The International System of Units & Conversions
Measuring Matter Ch. 1 Sec. 4 Measurement.
Chapter 3 Scientific Measurement 3.2 Units of Measurement
Warm Up:.
MASS, WEIGHT AND DENSITY
Lab Skills Physical Quantities Uncertainty SI Units Prefixes
Metric Measurement, Scientific Notation, & Sig Figs
Metric Measurement.
Measurement.
Measurement Physical quantities.
Measurement – MASS, VOLUME, DENSITY
SI base units Physical Quantity Unit and its abbreviation
Weight, Mass, Volume and Density
SI units (Le Systeme International d’Unites). SI units (Le Systeme International d’Unites)
Solve Apply the concepts to this problem.
Weight, Mass, Volume and Density
I can…. List and describe the general properties of matter.
QUANTITY AND MEASUREMENT
Making Measurements.
Scientific Measurement
Come on with measurement!
Measuring Matter.
MASS, WEIGHT AND DENSITY
Section 1-3: Measurement
2016 Physics WoF Start the year right with a .
What are the SI base units for time, length, mass, and temperature?
Measurements and Calculations
Presentation transcript:

Contents MEASUREMENT Units Measurement of Length Measurement of Volume Measuring Mass and Weight Measuring Density Measurement of Time

MEASUREMENT At the end of this chapter you should be able to: use and describe how to use rulers, micrometers, vernier scales and callipers to determine lengths use and describe how to use a measuring cylinder to measure a volume use and describe how to use clocks and other devices for measuring an interval of time including the period of a pendulum demonstrate an understanding that mass is a measure of the amount of substance in a body demonstrate an understanding of inertia as the property of a mass which resist change from its state of rest or motion

MEASUREMENT At the end of this chapter you should be able to: describe, and use the concept of, weight as the effect of a gravitational field on a mass demonstrate understanding that two weights, and therefore masses, may be compared using a balance use appropriate balances to measure mass and weight describe experiments to determine the density of a liquid, of a regularly shaped solid object and of an irregularly shaped solid object (by the method of displacement) and make the necessary calculations

Units SI Units The following table gives SI units for the basic physical quantities (things that can be measured). All scientists throughout the world use these units. (SI from the French “Le Systeme International d'Unites”.)

Units Physical Quantity SI Unit Symbol m Mass second A Temperature   m Mass second A Temperature Kelvin Amount of substance Mole mol Luminous intensity Candela cd Length metre kilogram kg Time s Electric Current ampere K

Units Prefixes Used to express physical quantities that are very big or very small. Although metres are the SI unit for length we use other units based on the metre. Small objects will be measured in centimetres, millimetres or micrometres. Large objects will be measured in kilometres.

Units Prefix Meaning Symbol Micro ¸ 1,000,000 m Milli ¸ 1,000 Centi ¸ 100 c Deci ¸ 10 d Kilo 1,000 k Mega 1,000,000 M

Units Examples 1. What is 23.4 centimetres in metres?   Write down the relationship between metres and centimetres. 100 cm = 1 m 1 cm = 1 / 100 m 1 cm x 23.4 = (1 / 100) m x 23.4 23.4 cm = 0.234 m

Units Examples 2. Express the speed of 5600 m/s in km/h.   5600 m/s = 5600 m / 1 s [ (5600) / (1000) ] km = 5.6 km = 20 160 km/h [ (1) / (3600)] h 0.000278 h

Units Exercise 1. Converting the following values from the units given: a) 1.5 m = __________ cm b) 0.23 mm = __________ m c) 200 g = __________ kg d) 15.7 cm = 157 _____ e) 0.37 km = 370 _____ f) 3000 mA = __________ A

Units Exercise 2. Converting the following values from one unit to another: a) 0.75 hour = __________ min b) 2 m² = ________ cm² c) 200 cm³ = __________ dm³ d) 1.7 g/cm³ = ________ kg/m³

Contents MEASUREMENT Units (Completed) Measurement of Length Measurement of Volume Measuring Mass and Weight Measuring Density Measurement of Time

Measurement of Length Rulers The following diagrams show correct and incorrect ways to read from a ruler. Figure 1 Figure 2 Q1. Which figure shows the correct way to read a ruler? Explain. Q2. What is the true length of the object? Q3. This type of error shown in the other figure is called _______________ error. Q4. Why is the ruler used from the 10 cm marking and not from its end?

Measurement of Length Different measuring instruments are used for measuring different lengths. This will determine the accuracy of the value we obtain.   Instrument Length to be measured Accuracy Tape Measure Greater than 1 m 1 cm Metre Rule 10 cm to 1 m 1 mm Vernier Callipers ~2 cm to ~10 cm 0.1 mm Micrometer Screw Gauge Less than 2 cm 0.01 mm

Measurement of Length Vernier Callipers Q1. Give two advantages of using vernier callipers rather than a ruler?

Measurement of Length Q2. What readings are shown on the following scales? Main scale: Vernier scale: Reading: _________________ Main scale: Vernier scale: Reading: _________________

Measurement of Length Q2. What readings are shown on the following scales? Main scale: Vernier scale: Reading: _________________ Main scale: Vernier scale: Reading: _________________

Measurement of Length Micrometer Screw Gauge Q1. What is the advantage of using a micrometer screw gauge rather than vernier callipers? Q2. What is the purpose of the ratchet on the micrometer?

Measurement of Length Q3. Write down the readings shown on each of the following micrometer screw gauges. 1. Sleeve: Thimble: Reading: ___________ 2.   Sleeve: Thimble: Reading: ___________

Measurement of Length Q3. Write down the readings shown on each of the following micrometer screw gauges. 3.   Sleeve: Thimble: Reading: ___________ 4.   Sleeve: Thimble: Reading: ___________

Measurement of Length Q3. Write down the readings shown on each of the following micrometer screw gauges. 5.   Sleeve: Thimble: Reading: ___________

Measurement of Length Zero Error Before using a micrometer we must check for a zero error. Close the micrometer so that the spindle touches the anvil. If there is no zero error then the reading will be 0.00 mm.

Measurement of Length 1. This micrometer has a zero error. Zero reading is 0.03 mm so we subtract 0.03 mm from all readings taken with this micrometer.

Measurement of Length 2. This micrometer has a zero error. Zero reading is -0.03 mm so we must add 0.03 mm to all readings taken with this micrometer.

Measurement of Length Exercise What would be the true length being measured above if the micrometer had i) a zero reading of 0.00 mm. _______________________________ ii) a zero reading of 0.02 mm. _______________________________ iii) a zero reading of -0.03 mm. _______________________________

Contents MEASUREMENT Units (Completed) Measurement of Length (Completed) Measurement of Volume Measuring Mass and Weight Measuring Density Measurement of Time

Measurement of Volume Liquids Volume of a liquid Q1. Which of the above are used to find the volume of a small volume of liquid? Q2. Which of the above are used to find the volume of a large volume of liquid?

Measurement of Volume 30 20 15 40 10 35 Precautions Always take the following precautions when reading the volume of a liquid: 1. Place the container on a flat horizontal surface. 2. The eye must be positioned perpendicularly at the mark of the scale. This is to avoid errors in measurement due to parallax.   Q. What are the readings on the following measuring cylinders? (Scales in cm³.) 10 15 35 40 20 30

Measurement of Volume Regular Solids 2 cm 3 cm Volumes can be calculated by taking measurements then using formulae. Volume of rectangular block = Volume of sphere = 3 cm 2 cm Volume of cylinder =

Measurement of Volume Irregular Solids Irregular Solids 1. Volume of a small irregular solid that sinks Irregular Solids 2. Volume of a small irregular solid that floats

Measurement of Volume Irregular Solids 3. Volume of a larger irregular solid

Contents MEASUREMENT Units (Completed) Measurement of Length (Completed) Measurement of Volume (Completed) Measuring Mass and Weight Measuring Density Measurement of Time

Measuring Mass & Weight In everyday conversation we use the words mass and weight interchangeably. In Physics they have two very different meanings. Mass Definition: Mass is defined as the amount of matter in a body.    SI Unit: ·        The mass of a body is constant and does not change. ·        Mass has only a magnitude. ·        Other units used for mass are the gram (g) and the tonne. 1 kg = 1000 g 1 tonne = 1000 kg

Measuring Mass & Weight Measurement of Mass To measure mass we can use one of two instruments:   Sliding Mass Balance Electronic Balance (Ohau's balance)

Measuring Mass & Weight Inertia The two people shown below put on roller-skates! Who would be 1. easy to push?  2. hardest to stop if coming towards you?   Thin Man Fat Man The difference is due to the difference in mass of the two men. The more massive an object the greater its inertia .

Measuring Mass & Weight Inertia Definition: Inertia is defined as the reluctance of an object to change its state of rest or uniform motion in a straight line.     Q. Explain why you can easily stop a ball thrown towards you at 30 km/h but are not able to stop a car coming towards you at only 5 km/h.

Measuring Mass & Weight Definition:   Weight is defined as the force of earth’s gravitational pull on a body.    SI Unit: Newton (N) Weight is not constant as it will vary depending upon acceleration due to gravity. Weight has both magnitude and direction.

Measuring Mass & Weight Measuring Mass & Weight Measurement of Weight To measure weight we can use one of two instruments:   Spring Balance Compression Balance Exercise Q. You go to the moon. Will your mass and weight change? Explain your answer.

Measuring Mass & Weight Measuring Mass & Weight Mass and Weight The following table summarises the differences between mass and weight:   Mass Weight Definition: Units: Does It Have Direction? Is Location Important? Measured Using: Spring Balance, Compression Balance Weight is defined as the force of earth’s gravitational pull on a body. Mass is defined as the amount of matter in a body. kg N No Yes No Yes Sliding Mass Balance, Electronic Mass Balance

Contents MEASUREMENT Units (Completed) Measurement of Length (Completed) Measurement of Volume (Completed) Measuring Mass and Weight (Completed) Measuring Density Measurement of Time

Measuring Density Different objects of the same size and shape often have a different weight. We then say that their densities are different. Definition:   Density is defined as the mass per unit volume.    SI Unit:   kg/m3 or kg m-3   Another common unit used is grams per cubic centimetre (g/cm³ or g cm-3).

Measuring Density Density = Mass / Volume Density can be calculated from the equation: Density = Mass / Volume Or we can write this in symbols as:   r = m / V   where r = density m = mass V = volume

Measuring Density Measurement of Density Method: 1. Volume of the object is calculated using one of the methods listed in Unit 1.3. 2. The mass is measured using a sliding mass balance or an electronic balance. 3. Density calculated using the above equation.   Precaution: The units must be kg and m³ or g and cm³. DO NOT MIX.

Measuring Density Density of Water One important density for you to know is that of water.   Exercise: Q1. A 2 litre coke bottle is filled with pure water and is found to have a mass of 2000 g (excluding the mass of the bottle). What is the density of pure water?

Measuring Density Density of Water One important density for you to know is that of water.   Exercise: Q1. A 2 litre coke bottle is filled with pure water and is found to have a mass of 2000 g (excluding the mass of the bottle). What is the density of pure water? Solution: m = 2000 g , V = 2000 cm3 Thus, r = m / V = 2000 g / 2000 cm3 = 1 g/cm3 or m = 2 kg, V = ( 2000 / 1000000 ) m3 = 0.002 m3 Thus, r = m / V = 2 kg / 0.002 m3 = 1000 kg/m3

Measuring Density Floating and Sinking When placed in water some objects will float and others will sink.   Q1. Which of the following objects will float when placed in water? Object Density Float / Sink Wood (oak) 650 kg/m³   Iron 2700 kg/m³ Gold 19000 kg/m³ Oil 850 kg/m³ Ice 920 kg/m³

Measuring Density Q2. Use your results to complete the following. Q3. If the density of an object is less than that of water it will _______________. Q4. If the density of an object is more than that of water it will ______________. Q5. Write the densities of gold and oak in g/cm³. Gold, Oak Q6. Will ice sink or float in oil? Explain your answer.

Contents MEASUREMENT Units (Completed) Measurement of Length (Completed) Measurement of Volume (Completed) Measuring Mass and Weight (Completed) Measuring Density (Completed) Measurement of Time

Measurement of Time SI Unit: second Other common units for measuring time are: minute, hour   All clocks measure time by counting the number of times something vibrates, or moves, back and forth. This type of repeated movement is called an oscillation. The time taken to make one complete oscillation is called the period of the oscillation. There are several different devices that can be used to measure time intervals. These will depend on: how long the time interval is (a fraction of a second – years). accuracy we require (to the nearest second, minute, day)

Measurement of Time Pendulum A pendulum in the simplest type of clock. It consists of a bob (small weight) swinging back and forth on a string. Side View Front View

Measurement of Time Pendulum A pendulum in the simplest type of clock. It consists of a bob (small weight) swinging back and forth on a string. Front View The length of the string, from clamp to centre of the bob, is l. The distance from A to B is called the amplitude of the oscillation, A. The period is the time taken, T, to swing from A to C and back to A again.

Measurement of Time Q1. What happens to the period, T, if we change the mass of the bob?   Q2. What happens to the period, T, if we change the amplitude, A? Q3. What happens to the period, T, if we change the length of the string, l?

Measurement of Time Q1. What happens to the period, T, if we change the mass of the bob? The period T remains unchanged when the mass of the bob is changed.   Q2. What happens to the period, T, if we change the amplitude, A?   The period T remains unchanged when the amplitude A is changed. Q3. What happens to the period, T, if we change the length of the string, l? The period T increases when the length of the string is increased. The period T decreases when the length of the string is decreased.

Contents MEASUREMENT Units (Completed) Measurement of Length (Completed) Measurement of Volume (Completed) Measuring Mass and Weight (Completed) Measuring Density (Completed) Measurement of Time (Completed)