The Berkeley Unified School District has pioneered garden education since the first …
The Berkeley Unified School District has pioneered garden education since the first school garden was planted at LeConte Elementary in 1983. This single garden inspired many others, and over the next twelve years it evolved into a multi-school Gardening and Cooking Program with annual support from a federal grant of $1.9 million from the California Nutrition Network. We lost this funding in 2013, along with many other nutrition and garden education programs, at which point we refocused from a nutrition-based program to one that supports teachers and students in the academic classroom. This change encouraged us to develop a pilot curriculum in 2013–1014, with support from teachers, garden educators, and consultants from the Edible Schoolyard, Berkeley. Our team of experts gleaned from existing lessons and research to synthesize drafts to best fit our own school gardens. We rewrote the pilot lessons with input from our school communities and with incredible support from P. Rachel Levin, an English Language Coach, to develop academic and health targets accessible to all of our students. The curriculum builds upon many years of educating our students in the garden and scales up content across grades and lessons for instructional scaffolding. It is designed as an interactive teaching tool to be co-taught with classroom teachers and garden instructors as leads. Each lesson connects directly to standards: Next Generation Science, Common Core State, Physical Education, and Environmental and Health Education. Our concise and easy-to-follow lessons are a packed 45 minutes for preschool through fifth grade. Flexibility is important to us, so some lessons include several activities that teachers can choose from to accommodate their lesson plans. Consistency is also important, so we follow themes and lesson structure found in the Curriculum Map.
This task presents a simple but mathematically interesting game whose solution is …
This task presents a simple but mathematically interesting game whose solution is a challenging exercise in creating and reasoning with algebraic inequalities. The core of the task involves converting a verbal statement into a mathematical inequality in a context in which the inequality is not obviously presented, and then repeatedly using the inequality to deduce information about the structure of the game.
Students will use images, U.S. Census Bureau data, and interactive maps to …
Students will use images, U.S. Census Bureau data, and interactive maps to visualize and calculate arithmetic (population), agricultural, and physiological densities at local, regional, and national scales. They will also transfer their calculations to bar graphs.
The purpose of this task is for students to interpret two distance-time …
The purpose of this task is for students to interpret two distance-time graphs in terms of the context of a bicycle race. There are two major mathematical aspects to this: interpreting what a particular point on the graph means in terms of the context, and understanding that the "steepness" of the graph tells us something about how fast the bicyclists are moving.
This lesson is an introduction to Binomial Expansion and the Binomial Theorem. …
This lesson is an introduction to Binomial Expansion and the Binomial Theorem. Students begin by expanding binomials using multiplication. They will examine the expansions looking for patterns. These patterns will be used to develop the Binomial Theorem. Both Pascal's Triangle and Combinations will be used to complete the Binomial Expansion. This lesson results from the ALEX Resource Gap Project.
Students will discuss the definition of a biography and determine what elements …
Students will discuss the definition of a biography and determine what elements it contains. They will research a famous person and create a web graphic organizer with key achievements and personal information from their life. Peer feedback will be given on the web creation and then an oral presentation will be given.
This course covers sensing and measurement for quantitative molecular/cell/tissue analysis, in terms …
This course covers sensing and measurement for quantitative molecular/cell/tissue analysis, in terms of genetic, biochemical, and biophysical properties. Methods include light and fluorescence microscopies; electro-mechanical probes such as atomic force microscopy, laser and magnetic traps, and MEMS devices; and the application of statistics, probability and noise analysis to experimental data.
This lesson begins with a demonstration prompting students to consider how current …
This lesson begins with a demonstration prompting students to consider how current generates a magnetic field and the direction of the field that is generated. Through formal lecture, students learn Biot-Savart's law in order to calculate, most simply, the magnetic field produced in the center of a circular current carrying loop. For applications, students find it is necessary to integrate the field produced over all small segments in an actual current carrying wire.
This task asks students to glean contextual information about bird eggs from …
This task asks students to glean contextual information about bird eggs from a collection of measurements of said eggs organized in a scatter plot. In particular, students are asked to identify a correlation and use it to make interpolative predictions, and reason about the properties of specific eggs via the graphical presentation of the data.
This Nrich problem fits in well with counting and skip-counting (counting by …
This Nrich problem fits in well with counting and skip-counting (counting by twos etc.) and can be solved by physically modeling the biscuits and decorations with whatever objects are convenient. It is a good opportunity for children to choose the way they represent the problem in order to solve it. It may also be appropriate to introduce vocabulary such as "multiple".
" BLOSSOMS stands for Blended Learning Science or Math Studies. It is …
" BLOSSOMS stands for Blended Learning Science or Math Studies. It is a project sponsored by MIT LINC (Learning International Networks Consortium) a consortium of educators from around the world who are interested in using distance and e-Learning technologies to help their respective countries increase access to quality education for a larger percentage of the population.BLOSSOMS Online"
In this task, output is given from a computer-generated simulation, generating size-100 …
In this task, output is given from a computer-generated simulation, generating size-100 samples of data from an assumed school population of 2000 students under hypotheses about the true distribution of yes/no voters.
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