OK ---------- >From: "Stinson, Mary Jane" <[log in to unmask]> >To: 'Jim Abrams ' <[log in to unmask]> >Subject: RE: [MLMATHNET] problem solving >Date: Tue, Apr 11, 2000, 9:26 PM > > Excellent ideas! > >Mary Jane Stinson >Folsom Educational Center >South Hero > >-----Original Message----- >From: Jim Abrams >To: [log in to unmask] >Sent: 4/4/00 4:56 PM >Subject: [MLMATHNET] problem solving > >I am convinced that improving problem is possible within the context of >virtually any math lesson. I would like to hear responses to the >comments >below from other math teachers. Sue Abrams, VISMT > >At the heart of improving problem solving is providing ALL students with >opportunities to engage in problem solving on a daily basis. While we >all >recognize the importance of having our children solve rich open-ended >problems such as those we use as portfolio tasks, we may not recognize >that >can help develop problem solving skills in our students EVERY DAY if we >create an atmosphere in which ALL students regularly > > * make their own observations, however insignificant (and hear the > observations of classmates) > > * probe their own reasoning (and that of others) > > * make and test their own conjectures (and test the conjectures of >others) > > * synthesize the big math ideas that are at the heart of each lesson > > >Specifically, we classroom teachers can make each day rich in problem >solving >if we do the following: > >1. Have students write -- or in some way note -- observations before >sharing >with a partner and/or the whole class. > >2. Pause...twice (once after asking the question; then once after an >answer > >is proposed) > >3. Avoid praising correct answers or even saying "right" (This does >NOT >mean letting students think that any answer is OK, however.) > >4. Model problem solving ourselves. (First I noticed that...; then I >tried...., but I knew it wouldn't work when....; so I decided....) > >5. Have regular experiences where each child synthesizes his/her >learning. > >(reflective writing, think/pair/share, end of class "mathematicians >circle") > >6. "Un"scaffold the lesson to create richer problem solving >possibilities >(more important in some published programs than others) > > >7. ASK "GENUINE" QUESTIONS and MAKE COMMENTS THAT INVITE DEEPER >THINKING >(Keep in mind that DISEQUILIBRIUM is needed for meaningful new learning >to >take place.) > >* Why? / Why not? > >* Help me understand ... > >* Tell me more ... > >* Hmm ... > >* Convince me ... > >* What do you notice / observe? > >* I see that you look (puzzled). What are you wondering about / >thinking? > >* What if...? / What if ... not ... ? > >* We have (several) solutions here. I am confused ... > >* When you said / did ..., tell me what you were thinking. > >* How is this like / different from...? > >* Will that always work? Why / why not? > >* What questions do you have for (John)? > >* What are your questions? (Then answer with a question.) > >* Describe what YOU think (Beth) is saying, and ask her if you are >correct. > >* (Jenny), perhaps you can help me understand what (Joey) is saying. > >* How many ways can you ...?