1 / 38

EPGY Stanford University Mathematics Program

EPGY Stanford University Mathematics Program. 2007-2008. What is the Stanford Math Program?. Web-based mathematics program A collaboration of Stanford University and K-12 schools. Stanford University Mathematics Program.

yanni
Download Presentation

EPGY Stanford University Mathematics Program

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. EPGY Stanford University Mathematics Program 2007-2008

  2. What is the Stanford Math Program? • Web-based mathematics program • A collaboration of Stanford University and K-12 schools

  3. Stanford University Mathematics Program Mission: accelerate the learning of all students through highly individualized instruction

  4. StanfordMath uses… • Intelligent curriculum and course design • Computer as intelligent agent, not media presentation tool • Analysis of learning data • Using student responses and performance data from over 10 million completed exercises

  5. And uses… • Embedded continual assessment • Using mathematical modeling to devise the optimal plan of achievement for each participant • Adaptive content • Ongoing program updates and improvements

  6. Six Learning Strands Number Sense: Integers Number Sense: Decimals and Fractions Geometry Logic and Reasoning Measurement Data/Statistics/Probability

  7. Curriculum Design • Continual assessment and review • Sophisticated determination of mastery • Standards-based curriculum

  8. Format Design • One exercise on the screen • Second chance at each exercise with a hint where appropriate

  9. One Exercise

  10. Typical Course Session • Practice and review • Math races • Review exercises • New material • Lectures • Exercises

  11. Access… …is available to administrators, teachers, parents, and students with any certified computer

  12. Teachers… …can easily use this program to add the value of differentiation to their current instructional plan

  13. Students… …stay engaged as independent learners

  14. Support… …is always available

  15. Think about this…

  16. Making music together… • Requires practice as a group • Requires blending with all • But, needs an individual to practice away from the group and then come back, ready to contribute

  17. Whether a large group…

  18. Or… • A small group…

  19. The individual must… • Work to bring up his or her own skills

  20. . .

  21. For a game…

  22. A player should… • Get stronger and practice on his or her own and get ready to play • Spend personal time in the weight room, practicing free throws, whatever can make the individual an asset to the team • This moves the individual forward as well as the team

  23. The team goals…

  24. . .

  25. Can be realized… • When an individual lifts personal skills through practice and hard work on targeted areas and gaps in skill

  26. .. .

  27. Individual →Group • Individual practice, differentiated as to the need • A stronger individual adds value to the group • Individuals get ready at different rates but all move forward • The group moves forward together

  28. How can this apply to the study of mathematics? Have Best Practices for implementation in place Use this program together with teacher-led instruction to create a powerful duo

  29. Two Working Together Classroom TeacherStanford Math Standards. . . . . . . . . . . . . . . . Standards Group instruction . . . . . . . . . Differentiated instruction Collaboration. . . . . . . . . . . . . . Independence Hands-on. . . . . . . . . . . . . . . . .Computer Ask questions. . . . . . . . . . . . . .Use resources Feedback. . . . . . . . . . . . . . . . .Instant feedback Unit by unit. . . . . . . . . . . . . . . Distributed practice across strands

  30. Transferring Knowledge Students begin to RETAIN information and to transfer what they have learned from the classroom setting to the computer setting and back This continual review and assessment method helps students THINK about what they have learned

  31. Best Practices At least 90-100 minutes per week Frequency per week: five 20-minutes sessions or three 30-minute sessions are ideal Part of curriculum, not an add-on Hold students accountable Encourage work outside of class Encourage transfer of content between classroom instruction and computer instruction

  32. Models for the Elementary Level Lab/classroom combination each week Lab only Classroom stations After school Before school At home In community settings Mix and match all of the above

  33. Models for Middle/HS Additional class period for computer assisted learning After-school programs Before-school programs Stations in the classroom Labs At home In community settings Some combination of all above

  34. Importance for Students • Individual assessment • Mixed exercises that review prior concepts • Immediate feedback: a response is either correct or incorrect • Students use mastery of concepts and resources to achieve success • Self-motivation creates autonomy

  35. Importance for Teachers • Monitor and track student progress • Change parameters to meet individual needs • Identify learning gaps • Differentiation allows each student to accelerate learning as appropriate • Detailed reports available for parents and students

  36. Importance for Parents • Detailed report of student progress • Used at parent-teacher conferences, sent home with students, used for follow-up assignments • Parent information night can demonstrate program effectively • Partnership with employers of the student’s parents/guardians • School Website or Newsletter • Tips for working from home • School lab availability

  37. Thoughtful implementation… …gives the best chance for student success

More Related