Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ann Sitomer Oregon State University ORMATYC 2015 1.

Published byZoe McLaughlin Modified over 9 years ago

Similar presentations

Presentation on theme: "Ann Sitomer Oregon State University ORMATYC 2015 1."— Presentation transcript:

1 Ann Sitomer Oregon State University ORMATYC 2015 1

2 Overview 2 ORMATYC 2015  Why am I hanging out with scientists and engineers?  What am I learning about mathematics in other SEM disciplines?

3 ESTEME@OSU  Project goal: Catalyze broad institutional change with respect to the use of Evidence-Based Instructional Practices (EBIPs) in the classroom  Focus: Introductory (gateway) courses in Biology, Physics, Chemistry, Mathematics, and Engineering 3 ORMATYC 2015

4 Implementation Communities of practice Research Organizational change Student outcomes Sustainability Transfer activities to Center For Teaching and Learning Imbed instruments into Institutional Assessment ESTEME@OSU 4 ORMATYC 2015

5 Anticipated StateCurrent State Cross Disciplinary Disciplinary Implementation: Communities of Practice (Wenger, 1998) 5  General features  Members have a shared interest or goal  There is a community in which people interact and engage in shared activities  The members are practitioners who develop a shared repertoire of resources for learning together  Communities of practice involve negotiation and social construction of ideas ORMATYC 2015

6 Implementation Communities of practice Research Organizational change Student outcomes Sustainability Transfer activities to Center For Teaching and Learning Imbed instruments into Institutional Assessment ESTEME@OSU - Project Design 6 ORMATYC 2015

7 Preliminary Findings  Organizational change  Undergraduate Learning Assistants (LAs) training and use of LAs in course design  Events  Identification of a problem of practice  Potential solution development  Workshop attendance  Community of practice meetings  Cross-pollination  Sensemaking  Research on impact of LAs on learning  Next Step: Feedback of analyzed data to guide future events 7 ORMATYC 2015

8 Why am I hanging out with scientists and engineers?  Role as a participant-observer in SEM classrooms and the Communities of Practice in which SEM faculty participate  Algebra-based physics sequence and the Physics Teaching Seminar  Introductory biology and an inter-disciplinary Community of Practice, called a Teaching Triad  Material Balance and Stoichiometry and role as a researcher studying organizational change  Introductory chemistry and the community of first-year chemistry GTAs 8 ORMATYC 2015

9 What am I learning about mathematics in other SEM disciplines?  Proportional reasoning in physics  Exponential growth in biology  Non-linear systems of equations in engineering  Geometrical imagination in chemistry 9 ORMATYC 2015

10 Proportional reasoning in physics 10 ORMATYC 2015 A woodworker has made four small airplanes and one large airplane. All airplanes are exactly the same shape, and all are made from the same kind of wood. The larger plane is twice as large in every dimension as one of the smaller planes. The planes are to be painted and then shipped as gifts. The amount of paint required to paint the planes is directly proportional to the surface area. Will the amount of paint required for the single plane in Case A be _____ the total amount of paint required for all four planes in Case B?. A. greater than B. equal to C. less than

11 Proportional reasoning in physics 11 ORMATYC 2015 A woodworker has made four small airplanes and one large airplane. All airplanes are exactly the same shape, and all are made from the same kind of wood. The larger plane is twice as large in every dimension as one of the smaller planes. The planes are to be painted and then shipped as gifts. The shipping cost for the planes is proportional to the weight which is related directly to the volume. Will the weight of the single plane in Case A be _____ the total weight of all four planes in Case B? A. greater than B. less than C. equal to

12 Proportional reasoning in physics 12 ORMATYC 2015 The figure shows a binary star system. The mass of star 2 is twice the mass of star 1. Compared to F 21 (the force on star 2 from star 1), the magnitude of the force F 12 (the force on star 1 from star 2) is _____. A. one quarter as large. B. half as large. C. the same magnitude. D. twice as large. E. four times as large.

13 Exponential growth in biology 13 ORMATYC 2015 An excerpt from a lecture on population ecology

14 In-Class Activity TimePop. APop. BPop. C 1110100 2215110 3423121 4835133 51653146 Below is population density data for three populations (A, B, C) all taken during the same time intervals. 1.Graph DENSITY VS. TIME on one set of axes. 2.Calculate which population is growing the fastest. Brainstorm how you might quantify population growth rate. 3.Discuss among your groups how you determined your answer. ORMATYC 2015 Biology

15 ORMATYC 2015 Biology

16 Based on what you just calculated, the graph below, and assuming the growth rate remains constant, rank the estimated population size at time 10. A. A>B>C B. C>B>A C. B>A>C D. None of the above. E. There is not enough information to determine the answer. ORMATYC 2015 Biology

17 TimePop. APop. BPop. C 1110100 2215110 3423121 4835133 51653146 63280160 764120176 8128180193 9256270212 10512405233 ORMATYC 2015 Biology

18 At time 10: A > B > C ORMATYC 2015 Biology

19 TimePop. APop. BPop. C 1110100 2215110 3423121 4835133 51653146 Calculate the proportional increase in population size in a given time interval? Is it constant? Below is population density data for three populations (A, B, C) all taken during the same time intervals. ORMATYC 2015 Biology

20 A > B > C Population A is growing by 100% (or doubling) in each time interval. Population B is growing by 50% in each time interval. Population C is growing by 10% in each time interval. ORMATYC 2015 Biology

21 N t + 1 = N t + [ N t proportional change ] A: N t + 1 = N t + [ N t (1.0)] B: N t + 1 = N t + [ N t (0.5)] C: N t + 1 = N t + [ N t (0.1)] ORMATYC 2015 Biology

22 Population growth in these examples are… A. additive in all cases B. multiplicative in all cases. C. may be additive or multiplicative but varies by population. ORMATYC 2015 Biology

23 Non-linear systems in engineering 23 ORMATYC 2015

24 Non-linear systems in engineering 24 ORMATYC 2015 Mass Balance Mass balance evaluates materials crossing a system boundary. The subscripts denote different materials streams entering and leaving the system. The conservation of mass tells us that the total mass of the materials entering the system must equal the total mass of the materials leaving the system, independent of reaction or a material phase change within the system boundary. m = mass (in kg) x = mass fraction (kg material/kg) y = vapor fraction (kg material/kg)

25 Geometrical imagination in chemistry 25 ORMATYC 2015

26 Geometrical imagination in chemistry 26 ORMATYC 2015

27 Geometrical imagination in chemistry 27 ORMATYC 2015 Let’s Think—A Linear Molecule?* Imagine for a second that the water molecule was linear and not bent. How would this change the strength of the different contributions (i.e., dispersion, dipoledipole, and H-bonding) to the IMFs [intermolecular forces] between water molecules? What would be the impact of this change on (a) the physical properties of water, (b) Earth’s climate, and (c) life in our planet? Share and discuss your ideas with a classmate. * From Reaching Students: What Research Says about Effective Instruction in Undergraduate Engineering, National Academies Press.

28 Thank You Email: ann.sitomer@oregonstate.edu 28

Download ppt "Ann Sitomer Oregon State University ORMATYC 2015 1."

Similar presentations

Common Core State Standards for Mathematics: Coherence Grade 7 Overview.

Common Core State Standards for Mathematics: Coherence Grade 7 Overview.
Chapter 11 Liquids and Intermolecular Forces

Chapter 11 Liquids and Intermolecular Forces
Physics Dynamics: Friction Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund 2012-2013 Department.

Physics Dynamics: Friction Science and Mathematics Education Research Group Supported by UBC Teaching and Learning Enhancement Fund Department.
FORCE Chapter 10 Text. Force A push or a pull in a certain direction SI Unit = Newton (N)

FORCE Chapter 10 Text. Force A push or a pull in a certain direction SI Unit = Newton (N)
Halliday/Resnick/Walker Fundamentals of Physics 8th edition

Halliday/Resnick/Walker Fundamentals of Physics 8th edition
Learning Goals for the Teachable Unit Understand that population growth is a multiplicative process. Practice how to construct graphs and interpret quantitative.

Learning Goals for the Teachable Unit Understand that population growth is a multiplicative process. Practice how to construct graphs and interpret quantitative.
Evaluating Hypotheses

Evaluating Hypotheses
Chapter 13 Gravitation.

Chapter 13 Gravitation.
Chapter 12.

Chapter 12.
1 Welcome back!. Vision for Science Teaching and Learning 2 View free PDF from The National Academies Press at www.nap.eduwww.nap.edu *Will also be posted.

1 Welcome back!. Vision for Science Teaching and Learning 2 View free PDF from The National Academies Press at *Will also be posted.
Welcome to your child’s 6 th Grade Math Class On Team (6B) Welcome to your child’s 6 th Grade Math Class On Team (6B) Where we try to make sense of numbers.

Welcome to your child’s 6 th Grade Math Class On Team (6B) Welcome to your child’s 6 th Grade Math Class On Team (6B) Where we try to make sense of numbers.
Chapter 11 Liquids and Intermolecular Forces

Chapter 11 Liquids and Intermolecular Forces
Engaging Students: Piloting “Clickers” in AUC Classrooms Azza Awwad, Maha Bali, Riham Moawad Center for Learning and Teaching.

Engaging Students: Piloting “Clickers” in AUC Classrooms Azza Awwad, Maha Bali, Riham Moawad Center for Learning and Teaching.
Affecting and Documenting Shifts in Secondary Precalculus Teachers’ Instructional Effectiveness and Students’ Learning Marilyn P. Carlson Arizona State.

Affecting and Documenting Shifts in Secondary Precalculus Teachers’ Instructional Effectiveness and Students’ Learning Marilyn P. Carlson Arizona State.
DEVELOPMENT OF ENGINEERING THERMODYNAMICS CONCEPT INVENTORY ASSESSMENT INSTRUMENTS Clark Midkiff, University of Alabama Thomas Litzinger, Penn State University.

DEVELOPMENT OF ENGINEERING THERMODYNAMICS CONCEPT INVENTORY ASSESSMENT INSTRUMENTS Clark Midkiff, University of Alabama Thomas Litzinger, Penn State University.
October 4, 2012 Kim Lott Utah State University

October 4, 2012 Kim Lott Utah State University
What should teachers do in order to maximize learning outcomes for their students?

What should teachers do in order to maximize learning outcomes for their students?
Common Core Mathematics, Common Core English/Language Arts, and Next Generation Science Standards. What’s the common thread?

Common Core Mathematics, Common Core English/Language Arts, and Next Generation Science Standards. What’s the common thread?
Energy Balance Equation

Energy Balance Equation
Colleen Megowan-Romanowicz PhD American Modeling Teachers Association Arizona State University The Next Generation Science Standards: another preview.

Colleen Megowan-Romanowicz PhD American Modeling Teachers Association Arizona State University The Next Generation Science Standards: another preview.

Similar presentations

Ads by Google