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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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Imagine you are a salesman needing to visit 100 cities connected by a set of roads. Can you do it while stopping in each city only once? Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn. In 1994, Leonard Adleman publis
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Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
More OCW like this |
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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Do you like teaching, but find yourself frustrated by how little students seem to learn? Would you like to try teaching, but are nervous about whether you will be any good at it? Are you interested in new research on science education? Research in science education shows that the greatest obstacle to student learning is the failure to ident
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Tag(s):
- biology
- teaching
- learning
- concept-centered
- education
- science education
- biology
- student learning
- misconceptions
- studies
- biology teaching
- teaching environment
- pre-conceived notions
- learning environment
- classroom
- cooperative learning
- group learning
- assessment
- multiple intelligences
File: 7-391-fall-2005.zip
This OER is part of OCW: Concept-Centered Teaching
Published under: /Download Course Materials
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Inherited Tag(s):
- biology
- teaching
- learning
- concept-centered
- education
- science education
- biology
- student learning
- misconceptions
- studies
- biology teaching
- teaching environment
- pre-conceived notions
- learning environment
- classroom
- cooperative learning
- group learning
- assessment
- multiple intelligences
File: 7-349-spring-2005.zip
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Download Course Materials
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Used by:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn1_kate.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
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OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: presemathewson.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
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OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn2_kate.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn2_erin.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn2markgarcia.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: student_b_2.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
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OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: writinassignmnt.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
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OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: presmarkgarcia.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn1markgarcia.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn1_erin.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: assgn2lh.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
File: student_b_3.pdf
This OER is part of OCW: Biological Computing: At the Crossroads of Engineering and Science
Published under: /Assignments
Share in:
OCW Authors:
Inherited Tag(s):
- biology
- biological computing
- leonard adleman
- exquisite detection
- whole-cell computing
- computation
- molecular biology
- biotin-avidin
- magnetic beads
- cellular processes
- combinatorial problems
- self-assembly
- nanodevices
- molecular machines
- quorum sensing
- molecular switches
- ciliates
- molecular gates
- molecular circuits
- genetic switch
- cellul
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