America's Lab Report

Reference: http://www.nap.edu/catalog.php?record_id=11311

Authors

Susan R. Singer, Margaret L. Hilton, and Heidi A. Schweingruber, Editors, Committee on High School Science Laboratories: Role and Vision, National Research Council

Description

Laboratory experiences as a part of most U.S. high school science curricula have been taken for granted for decades, but they have rarely been carefully examined. What do they contribute to science learning? What can they contribute to science learning? What is the current status of labs in our nation s high schools as a context for learning science? This book looks at a range of questions about how laboratory experiences fit into U.S. high schools:

• What is effective laboratory teaching?
• What does research tell us about learning in high school science labs?
• How should student learning in laboratory experiences be assessed?
• Do

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Description

Laboratory experiences as a part of most U.S. high school science curricula have been taken for granted for decades, but they have rarely been carefully examined. What do they contribute to science learning? What can they contribute to science learning? What is the current status of labs in our nation s high schools as a context for learning science? This book looks at a range of questions about how laboratory experiences fit into U.S. high schools:

• What is effective laboratory teaching?
• What does research tell us about learning in high school science labs?
• How should student learning in laboratory experiences be assessed?
• Do all student have access to laboratory experiences?
• What changes need to be made to improve laboratory experiences for high school students?
• How can school organization contribute to effective laboratory teaching? With increased attention to the U.S. education system and student outcomes, no part of the high school curriculum should escape scrutiny. This timely book investigates factors that influence a high school laboratory experience, looking closely at what currently takes place and what the goals of those experiences are and should be. Science educators, school administrators, policy makers, and parents will all benefit from a better understanding of the need for laboratory experiences to be an integral part of the science curriculum and how that can be accomplished.

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The science learning goals of laboratory experiences include enhancing mastery of science subject matter, developing scientific reasoning abilities, increasing understanding of the complexity and ambiguity of empirical work, developing practical skills, increasing understanding of the nature of science, cultivating interest in science and science learning, and improving teamwork abilitie

The research suggests that laboratory experiences will be more likely to achieve these goals if they (1) are designed with clear learning outcomes in mind, (2) are thoughtfully sequenced into the flow of classroom science instruction, (3) integrate learning of science content and process, and (4) incorporate ongoing student reflection and discussion.

Assignment: Inference, evidence and indirect

Come prepared on Tuesday Sept. 2, 2013 to share how you think that these three words are related using the experiences that you had with your Newton Cars activity. Draw a representation to illustrate how these three words might be related:

inference

evidence

indirect

Assignment: Newton Cars

Due on/before 12:00 noon Monday, Sept 2, 2013

Respond to the following question individually:
Is what you did in class on Tuesday "science'? (100 word minimum)

Assignment: A Teacher's Perspective - Science Talks

Recall the question that your group recorded (see Science Talks dropbox file for images of posters) and respond to the following question individually:
How does the chapter respond to the question? (150 word minimum)

September 2: Class, I enjoyed reading your posts; the quality of responses is thoughful and articulate. RAR

Homework - due on/before 12:00 PM Monday, August 26

Homework due on/before 12:00 PM Monday, August 26

Note: We collect and review your responses to these questions as part of your HWK grade; so write what you plan to share with the expectation that we will collect these items.

Remember, we want to know what you know and think!

1. Read the syllabus posted in the Dropbox file under Course Info. What three (3) questions/comments do you have? Bring to share.
   
2. Look at the outcomes and topics for the course. What questions/comments do you have? What science question do you have about any one topic? What are you interested in knowing more about? Bring to share.
   
3. Read the remainder of the Teaching Science to ELLs chapter; respond to the blog questions - see http://phsc4010fall2013.blogspot.com
4. Read Chapter 2: The Ordered Universe – Trefil and Hazen.  What questions do you have?Bring to share
   
5. Look at the GACE Middle Grades Science Exam online at http://www.gace.nesinc.com.  What surprises you about the type of exam questions? What questions do you have? Bring to share
   

2    On Tuesday, Aug. 27, come prepared to engage in Engineering Design, so make sure that you complete assignment #3 above.

RAR and VKD

A note about email communication with your professors

As we start a new year, here's with some advice about emailing your professor. This email responds to years of email receipt that are less-than-professional AND don’t provide enough information to formulate a response.
Please refer to the following statement in your course syllabus about communication:

• Communication is an essential part to your success at university and in a career. Maintain communication with your professor by attending office hours and/or asking questions via email. Maintain communication with your classmates by attending supplemental instructions sessions and/or forming weekly study groups that meet outside of class. 
• While we encourage communication between student and professor regarding course material, we discourage requests for extra points or special consideration regarding grades. All students will be treated equally.
• Communication with your classmates and professor should be clear, concise and respectful. We will not respond to emails or other forms of communication that are not professional. Email sent to your professor is part of your academic record. Always identify yourself and your course name in any email you send to your professor.

It is important for you to know that your professors have close to 120 students in their courses and receive dozens of emails a day that require responses. When we receive an email from a student the student is potentially from one of four courses, this makes it very important that you identify yourself, the course in which you are enrolled and the nature of your request.

Details matter!
Your email is very likely to go unanswered if you don’t clearly explain the situation and indicate that you’d like a response.

Politeness matters!
Salutations and an introduction are important in professional communication. Don’t skip the niceties! Treat every email you send to your professor as you would if you were sending an email to your boss. Remember that you are very likely to be in a situation down the road to ask that same person to provide a recommendation for you for a job or school application. That recommendation will likely address your ability to communicate in professional situations, such as through email.

There are many helpful guides available for email communication with your professor. We particularly like this one:
http://www.usatodayeducate.com/staging/index.php/campuslife/five-things-to-remember-when-e-mailing-a-professor

Thanks and we look forward to your email,

Your professors

Welcome to the PHSC 4010 Blog

Dear Class:

Welcome to Physical Science for Middle Grades Teachers – PHSC 4010.

The primary goal of this course is for you to develop a sophisticated understanding of what science is and how science is done. As a result, the course will be non-traditional in every way.

Student Learning Outcomes

The student will

• develop tools to deliver a learning environment through conversation (Science Talks will bring out the representation and notion of models)  
•  understand how big ideas in science provide a framework for facts
• engage in overarching investigations that foster authentic science experiences   
•  experience science learning as a “process of thinking through ideas”
• investigate and control variables to evaluate how variables contribute scientific evidence and the development of scientific ideas
• be prepared to successfully pass the broad-field science GACE

Course Facilitators

This course will be co-taught by a scientist, Dr. Rosalie A. Richards, and a science educator, Dr. Victoria Deneroff. Together, we invite you on this journey of science self-discovery.

Logistics

Please pay attention to these important logistics.

• Complete the survey located at https://www.surveymonkey.com/s/KXN93HK. The survey will close at by 11:45 PM on Monday, August 19, 2013.  
• Each student must purchase the following textbooks for the course:  
• The Sciences: An Integrated Approach by Trefil and Hanzen. Each student must buy a book or e-book; each book will have an account with e-tools. Find at http://www.amazon.com/The-Sciences-An-Integrated-Approach/dp/0470118547. The cost is about $54 before taxes and shipping.  
• Teaching Science To English Language Learners: Building on Students' Strengths. Roseberry & Warren.  http://www.amazon.com/Teaching-Science-English-Language-Learners/dp/1933531258/ref=sr_1_1?s=books&ie=UTF8&qid=1376686125&sr=1-1&keywords=roseberry+warren. The cost is about $24 before taxes and shipping.

• A copy book for laboratory activities (hardcover, akin to the black/white Meade-type) 
• Scientific calculator (TI -84 or higher version) 
• Safety glasses or goggles  
• A curiosity for science  
• A positive attitude!

A Copy of the syllabus can be found in your Dropbox file (PHSC_Share13) in the Course Info folder

Welcome!!