[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]
STEM Ed Announcement: Science/Engineering Saturday Seminars
- To: xxxxx@xxxxxxxxxx
- Subject: STEM Ed Announcement: Science/Engineering Saturday Seminars
- From: "Mort Sternheim" <email@example.com>
- Date: Mon, 21 Jan 2013 10:02:45 -0500
This is a UMass STEM Ed program
GOOD NEWS. We now have enough signups to offer the program.
There is still a lot of room, so please sign up if you are interested.
Science & Engineering Saturday Seminars Spring, 2013
Designed for science teachers; new teachers are especially welcome
- Five Saturdays each term
- 8:30-1 at UMass Amherst, Lederle Grad Towers 1033 (except as noted)
- Educational materials, refreshments, parking, PDP's included
- Advance registration is required; capacity is limited
- Cost $30 per session, $120 for all five sessions
- 4 PDP's per half day session
- Option for 3 grad credits at reduced cost with extra work
January 26. Air Pressure, Clouds and the Weather. Laura Schofield, Ipswich
schools. Predict the weather by understanding air pressure and clouds.
Participants will be presented with content to strengthen their own
understandings as well as student friendly materials from the National
Weather Service and NOAA. Topics covered will include Clouds, Air Pressure
and Weather Systems. The presentation will include tutorials, hands-on
analysis of current weather data using online resources and materials that
support nonfiction reading and writing skills which address ELA Common Core
February 2. Everyday Particle Physics. Andrea Pocar, Physics. Elementary
particles are often viewed by the general public as remote concepts. The
recent discovery of the Higgs boson has required one of the most complex
machines ever built, but many pioneering discoveries have been made with
much simpler detectors. This workshop will present an overview of elementary
particles and techniques at a level presentable to high school students and
show how particle physics is all around us and can be used to introduce
quantum and relativity concepts to students. Using easily-available
components, we'll build a cloud chamber, a particle detector in which
particles leave distinct tracks that can be seen by eye. Bring a digital
camera, laptop, laser pointers and a bright white light (like the ones for
bicycles) if you can.
February 9. Pollen Biology. Alice Y. Cheung, Hen-ming Wu, Qiaohong Duan and
Yanjiao Zou, Biochemistry and Molecular Biology. Pollen is a specialized
cell type in plants whose function is to deliver sperm to the female for
fertilization. Therefore pollen is important for seed formation and
essential for agriculture, ecology as well as the economy. It is also an
excellent system for studying many fundamental biological processes,
including genetics, cell-cell communication and cell growth. Pollen grains
and pollen tube growth are also visually fascinating to observe. Much of the
methodology is readily transferable from the research laboratory to the
teaching laboratory at all levels. In this workshop, we shall introduce
pollen biology in a short lecture and have experimental set-ups for
participants to explore during the session. In addition, we will provide a
protocol packet and some essential experimental materials for participants
to facilitate their adopting some of the experiments to their classrooms.
March 2. How much arsenic do we eat? Julian Tyson, Chemistry. A workshop
starting with an overview of some topics that could form the basis of
activities for your students, both in and out of class. The contamination of
apple juice and rice with potentially harmful arsenic compounds has been
highlighted in the news recently. This comes on top of the drinking-water
contamination issues that many countries, including the US, are facing.
Relevant agencies have recently revised guidelines for human consumption of
"arsenic", and there are discussions concerning possible regulations for the
arsenic content of foods. Answering the question "is it safe" is
complicated and involves (a) making decisions about what level of risk are
we prepared to accept, and (b) a knowledge of what is reasonable to expect
in terms of information about chemical composition-all rich topics for
discussion. Members of my research group (including K-12 students and their
teachers, undergraduates and graduates) have been working on the development
of a procedure for the measurement of the relevant arsenic compounds in rice
that can be performed in a kitchen at home (or, of course, in a school lab).
We'll work through the analysis of water and of rice extracts by a
colorimetric method that involves the examination of the image, produced by
a digital camera, with powerful, free software, AnalyzingDigitalImages.
Bring a digital camera and a laptop if you can.
March 9. Patterns Around Us. Benjamin Davidovitch, Physics; Jennifer
Welborn, Amherst Regional; Wayne Kermenski, Mohawk Regional. "Science may
be described as the attempt to give good accounts of the patterns in nature.
The result of scientific investigation is an understanding of natural
processes.... Overall, the key criterion of science is that it provides a
clear, rational, and succinct account of a pattern in nature...."
Massachusetts State Frameworks for Science and Technology. We will explore
the process of pattern recognition, analysis, and prediction (RAP) through
a variety of activities which align with the Frameworks. Professor
Davidovitch will present his current research on the quantitative analysis
of wrinkling patterns. We will then investigate wrinkling patterns through
hands-on activities which culminate in a real-life design challenge.
April 6. Weather Makeup if needed.
April 27. Recall for those registered for graduate credits. Hasbrouck Lab.
Graduate credit option: There is a charge of $300 for 3 graduate credits
plus a $45 registration fee; register for Nat Sci 697A (Cont ed) or 697 F
(University). This is in addition to the $120 STEM Education Institute fee.
Teachers may obtain credit for the seminar as many terms as they wish, but
only 3 credits may be applied to UMass Amherst degrees. A lesson plan and a
book report will be required for those enrolled for graduate credit. We will
have Continuing Education registration forms at the first seminar.
Questions: Mort Sternheim, firstname.lastname@example.org, 413-545-1908,
Online seminar registration and payment:
www.umassk12.net/sess/register.html. Required for everyone whether or not
they are registering for graduate credit.
Subscribe to the STEM Ed. RSS feed at: