Models and Simulations

Slides:

Advertisements

Similar presentations

What is Science? Science refers to a method of learning about the natural world, as well as to the knowledge gained through that process. Scientific Inquiry.

Advertisements

Ch 1 - The Nature of Science

CHAPTER 14: Confidence Intervals: The Basics

Objectives Explain how scientists use statistics.

Unit 2 Lesson 3 Models and Simulations. To Be a Model Scientist … Use Models! Copyright © Houghton Mifflin Harcourt Publishing Company Why do scientists.

Determine whether each curve below is the graph of a function of x. Select all answers that are graphs of functions of x:

Warm Up Evaluate each expression for x = 1 and y =–3.

SOLVING SYSTEMS USING SUBSTITUTION

Algebra Problems… Solutions

Scot Exec Course Nov/Dec 04 Ambitious title? Confidence intervals, design effects and significance tests for surveys. How to calculate sample numbers when.

Chapter 8: Models and Simulations By Mohammad Ezmir.

Arithmetic of Positive Integer Exponents © Math As A Second Language All Rights Reserved next #10 Taking the Fear out of Math 2 8 × 2 4.

Newton's First Law of Motion Grade 6 Unit 1 : Lesson #3

Pizza Mundo Click on My Documents: unit 3 – Spreadsheet modelling GD

IGCSE ICT Computer Simulation.

Computer Science 101 Modeling and Simulation. Scientific Method Observe behavior of a system and formulate an hypothesis to explain it Design and carry.

Tools of Environmental ScienceSection 2 Section 2: Statistics and Models Preview Bellringer Objectives How Scientists use Statistics Statistics Works with.

NOTES The Normal Distribution. In earlier courses, you have explored data in the following ways: By plotting data (histogram, stemplot, bar graph, etc.)

12 Models and Simulations. Model vs Simulation A template of a physical object A mathematical model of a physical object Object modelled may be small.

Scientific Inquiry & Skills

Correlation and Linear Regression. Evaluating Relations Between Interval Level Variables Up to now you have learned to evaluate differences between the.

Big Ideas & Better Questions, Part II Marian Small May, ©Marian Small, 2009.

The Nature of Science Hello my future scientists!!!

Bell Work Write the answers on the left hand side of your IAN

Chapter: The Nature of Science

Can I use this data to make a prediction? What does a point represent?

Simulations. Learning Objectives Explain the reasons for simulation, such as to change time-scales and/or save costs and/or avoid danger Describe the.

Modelling and Simulation 3.5 Science and the Environment.

Foundations of Technology Modeling and Prototypes

Modelling and Simulations The Kingsway School. What are Computer Models? When a real life situation is represented by computer software. Can you think.

< BackNext >PreviewMain Chapter 2 Data in Science Preview Section 1 Tools and Models in ScienceTools and Models in Science Section 2 Organizing Your DataOrganizing.

Section 10.1 Confidence Intervals

The Quadratic Formula and the Discriminant

1.2 Using a Scientific Approach You are caught in the rain. Should you run or walk? Maybe you should run–less time in the rain means less water falls down.

The World of Earth Science Chapter 1. Section 1 Branches of Earth Science Objectives –Describe the four major branches of Earth science –Identify four.

Tools of Environmental Scientist Chapter 2.  Scire (latin)  to know What is Science?

1.2 Using a Scientific Approach You are caught in the rain. Should you run or walk? Maybe you should run–less time in the rain means less water falls down.

 Science comes from a Latin word Scientia means “Knowledge”  Is a process that use observation and investigation to obtain knowledge.

Physical Geology Chapter 1. Earth Science Study of the earth and its place in the universe Causes of natural events can be discovered through observation.

Bell work   Answer the following questions:   How is an airplane flight simulator a kind of model?   What are some advantages to training pilots.

9/15/15 Scientific Models 1-3 Pgs IN: How do scientists use models to experiment on things?

SIMULATION MODELLING. Your exam Lesson objectives To be able to define and understand: Definition of a simulation model. Advantages and disadvantages.

Introduction to Earth Science Section 1 SECTION 1: WHAT IS EARTH SCIENCE? Preview  Key Ideas Key Ideas  The Scientific Study of Earth The Scientific.

Modeling and Prototypes Presentation Explanation © 2011 International Technology and Engineering Educators Association, STEM  Center for Teaching.

Introduction to Modeling Technology Enhanced Inquiry Based Science Education.

 A model is a representation of an object or system.  Models often use familiar objects or ideas that stand for other things.

Objectives Explain how scientists use statistics. Explain why the size of a statistical sample is important. Describe three types of models commonly used.

Graphing a Linear Equation A solution of an equation in two variables x and y is an ordered pair ( x, y ) that makes the equation true. The graph of an.

Nature of Science.

You are caught in the rain. Should you run or walk

Unit 2 Lesson 3 Models and Simulations

Quick one: Do you know what these are?

Tuesday August 23,2016 Notes –Binder Check - 08/14, every work should be completed. GPS – SEV5. Students will recognize that human beings are part of the.

Models, Scientific and Otherwise, and Theories

Unit 1 - Introduction to Matter

Learning Objectives I can construct and organize data into tables.

Models as Tools in Science

Scientific Models Section 3.

Scientific Inquiry Unit 0.3.

Chapter 3: Describing Relationships

We use models to represent Earth Systems

You are caught in the rain. Should you run or walk

Prediction and Accuracy

Scientific Methods An organized plan for _________, __________, and ______________ information is called a scientific method. You can use a scientific.

You are caught in the rain. Should you run or walk

You are caught in the rain. Should you run or walk

You are caught in the rain. Should you run or walk

You are caught in the rain. Should you run or walk

Presentation transcript:

Models and Simulations Unit 2 Lesson 3 Models and Simulations

Check T or F to show whether you think each statement is true or false. ___ Models can have the same general appearance as real-life objects. ___ Models of airplanes have all of the same operating parts as real airplanes do. ___ Models can represent systems and processes.

Check T or F to show whether you think each statement is true or false. T Models can have the same general appearance as real-life objects. F Models of airplanes have all of the same operating parts as real airplanes do. T Models can represent systems and processes.

2. Write your own caption in this photo (page 93).

2. Write your own caption in this photo (page 93) 2. Write your own caption in this photo (page 93). Models can sometime look like toys. Models let us do things that would be different or dangerous in real like.

Many English words have their roots in other languages Many English words have their roots in other languages. Use the Latin word below to make an educated guess about the meaning of the word simulatio. Latin word Meaning simulatio make-believe simulation:

Many English words have their roots in other languages Many English words have their roots in other languages. Use the Latin word below to make an educated guess about the meaning of the word simulatio. Latin word Meaning simulatio make-believe simulation: An imitation of a real-life object or situation.

4. Omit

5. What is one example of a complex system that can be represented by a model?

5. What is one example of a complex system that can be represented by a model? The human body is a complex system that could be represented by a model.

6. How can using model buildings in earthquake simulations produce more earthquake-resistant building designs?

6. How can using model buildings in earthquake simulations produce more earthquake-resistant building designs? Data from simulations might show flaws in the building design that can be corrected before the real building is constructed.

7. Using the graph on page 95, predict sunspot activity in 2020.

Using the graph on page 95, predict sunspot activity in 2020. 2000 is a peak in the 11 year solar cycle; therefore 2010 should be close to a peak, and 2020 should also be close to a peak.

8. What are three examples of objects that are too large to easily study without using models?

8. What are three examples of objects that are too large to easily study without using models? Ocean currents, the atmosphere, weather patterns.

9. What are some advantages of using a model for teaching about organs rather than using an actual organ?

9. What are some advantages of using a model for teaching about organs rather than using an actual organ? It’s easier and cleaner plus you don’t need to worry about the complicated ethical issues of using real organs.

10. What is the role of the smoke that is moving over the model aircraft on page 97?

10. What is the role of the smoke that is moving over the model aircraft on page 97? The model makes it possible to see how the air moves over the model to study resistance.

11. What do the large and small numbers represent in a chemical equation?

11. What do the large and small numbers represent in a chemical equation? The large numbers represents the numbe of molecules. The small numbers represent the number of atoms in a single molecule.

12. What are two ways in which a computer model might be oversimplified?

12. What are two ways in which a computer model might be oversimplified? If some variables are left out of a model to save computer processing time or if only a small portion of the system is studied to simplify a calculation.

13. As you read, underline the uses of conceptual models.

As you read, underline the uses of conceptual models. Identifying patterns, similarities for classifications, processes that cannot be directly observed, predict the effect that changing one part of a system will have on the whole system.

14. Omit

15. Why is an actual car with realistic passengers needed to simulate the effects in a crash safety test?

15. Why is an actual car with realistic passengers needed to simulate the effects in a crash safety test? To obtain realistic data about crash safety, a real car is needed, as well as dummies that are similar to real people in size and weight.

16. Why do astronauts train using underwater simulations?

16. Why do astronauts train using underwater simulations 16. Why do astronauts train using underwater simulations? To practice spacewalking and working in a “weightless” environment on Earth before performing actual walks in space.

17. ___ Models always behave exactly like the thing they represent.

17. F Models always behave exactly like the thing they represent

18. ___ Computer modeling is useful for determining how objects interact with one another or change.

18. T Computer modeling is useful for determining how objects interact with one another or change.

19. ___ Complex objects or processes are easier to simulate.

19. F Complex objects or processes are easier to simulate.

20. ___ Conceptual models can represent a process that cannot be observed directly.

20. T Conceptual models can represent a process that cannot be observed directly.

Lesson Review

Physical model A. Water cycle, rock cycle, family tree Conceptual B. Chemical reaction, model population growth, sunspot activity Mathematical C. Architectural model, model atomic structure, an artificial organ

C. Physical model A. Water cycle, rock cycle, family tree A. Conceptual B. Chemical reaction, model population growth, sunspot activity B. Mathematical C. Architectural model, model atomic structure, an artificial organ

4. What are three advantages of using conceptual models?

4. What are three advantages of using conceptual models 4. What are three advantages of using conceptual models? Conceptual models can be used to simplify complex relationships, to identify similarities that can be used for classification, and to describe processes that cannot be observed directly.

5. Models are often used to represent very small objects or very large objects. Why is it also useful to create life-size models of some objects?

5. Models are often used to represent very small objects or very large objects. Why is it also useful to create life-size models of some objects? Sometimes it is useful to have life-size models of real objects because the real object might be difficult or impossible to obtain.

6. List two advantages and two limitations of physical models?

6. List two advantages and two limitations of physical models 6. List two advantages and two limitations of physical models? Advantages: easier, safer, and cheaper to work with Limitations: may not be an accurate representation, may not behave like it does in its normal environment.

7. Using the graph on page 103, what is the length of time between peaks in sunspot activity?

7. Using the graph on page 103, what is the length of time between peaks in sunspot activity? About 10 years (on average 11 years)

8. Again using the graph on page 103, evaluate the following statement 8. Again using the graph on page 103, evaluate the following statement. By using the sunspot graph above, you can predict the exact number of sunspots for any year in the future.

8. Again using the graph on page 103, evaluate the following statement 8. Again using the graph on page 103, evaluate the following statement. By using the sunspot graph above, you can predict the exact number of sunspots for any year in the future. This statement is not accurate. The exact number of sunspots is not predictable, and the interval between peaks also varies.

9. Computers are fast and do not make errors when doing calculations 9. Computers are fast and do not make errors when doing calculations. Does this mean that computer models are always correct? Explain you answer.

9. Computers are fast and do not make errors when doing calculations 9. Computers are fast and do not make errors when doing calculations. Does this mean that computer models are always correct? Explain you answer. Computer models are not always correct. Computer programs may leave out critical variables or may not consider how variables interact or change over time.