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2011 information:
Professor: Leah Buechley (leah at media.mit.edu)
Office hours: by appointment
Location: E14-525, new Media Lab building
Time: Tuesdays 1-4pm and Fridays 2-3pm
Course Number: MAS 963
2010 information: \\
2011 information:
Professor: Leah Buechley (leah at media.mit.edu)
Office hours: by appointment
Location: E14-525, new Media Lab building
Time: Tuesdays 1-4pm and Fridays 2-3pm
Course Number: MAS 963
2010 information:
2010 information: \\
2010 information:
Office hours: TBA \\
Office hours: Mondays 3-5pm \\
Office hours: TBA \\
Location: E14-525, new Media Lab building \\
Wednesdays 1-4pm and Fridays 2-3pm \\
Location: E14-525, new Media Lab building
Time: Wednesdays 1-4pm and Fridays 2-3pm \\
Professor: Leah Buechley, leah at media.mit.edu
TA: Hannah Perner-Wilson, plusea at media.mit.edu \\
Professor: Leah Buechley (leah at media.mit.edu)
TA: Hannah Perner-Wilson (plusea at media.mit.edu) \\
Professor: Leah Buechley
TA: Hannah Perner-Wilson \\
Professor: Leah Buechley, leah at media.mit.edu
TA: Hannah Perner-Wilson, plusea at media.mit.edu \\
Location: E14-525, new Media Lab building map \\
Location: E14-525, new Media Lab building \\
TA: Hannah Perner-Wilson \\
MAS 962
Wednesdays 1-4pm and Fridays 2-3pm \\
Wednesdays 1-4pm and Fridays 2-3pm
Course Number: MAS 962
MAS 962
MAS 962
Wednesdays 1-4pm and Fridays 2-3pm
Course Number: MAS962
Wednesdays 1-4pm and Fridays 2-3pm \\
MAS 962
Wednesdays 1-4pm and Fridays 2-3pm
Wednesdays 1-4pm and Fridays 2-3pm \\
Wednesdays 2-4pm and Fridays 2-3pm
Wednesdays 1-4pm and Fridays 2-3pm
MAS 962 \\
Wednesdays 2-4pm and Fridays 2-3pm
Wednesdays 2-4pm and Fridays 2-3pm Course Number: MAS962
Wednesdays 2-4pm
Fridays 2-3pm
Wednesdays 2-4pm and Fridays 2-3pm
MAS 962<br> Location: E14-525, new Media Lab building map<br> Professor: Leah Buechley<br> Wednesdays 2-4pm<br> Fridays 2-3pm<br>
MAS 962
Location: E14-525, new Media Lab building map
Professor: Leah Buechley
Wednesdays 2-4pm
Fridays 2-3pm
MAS 962 Location: E14-525, new Media Lab building map Professor: Leah Buechley Wednesdays 2-4pm Fridays 2-3pm
MAS 962<br> Location: E14-525, new Media Lab building map<br> Professor: Leah Buechley<br> Wednesdays 2-4pm<br> Fridays 2-3pm<br>
This project-based course will explore the future of textiles, focusing particularly on blending rich crafting traditions with new technologies. Topics will include textile-based electronics, textile fabrication, algorithmic pattern design, and composites. We will experiment with a wide range of fibers, yarns, and fabrics including traditional materials like wool and cotton as well as metal fibers and yarns, fusible plastics, papers, and resins. We will also explore techniques like felting, laser cutting, CNC knitting, digital printing, and CNC embroidery. Students will complete weekly hands-on assignments and a final project.
This project-based course will explore the future of textiles, focusing particularly on blending rich crafting traditions with new technologies. Topics will include textile-based electronics, textile fabrication, algorithmic pattern design, and composites. We will experiment with a wide range of fibers, yarns, and fabrics including traditional materials like wool and cotton as well as metal fibers and yarns, fusible plastics, papers, and resins. We will also explore techniques like felting, laser cutting, CNC knitting, digital printing, and CNC embroidery. Students will complete weekly hands-on assignments and a final project.
MAS 962 Location: E14-525, new Media Lab building map Professor: Leah Buechley Wednesdays 2-4pm Fridays 2-3pm
This project-based course will explore the future of textiles, focusing particularly on blending rich crafting traditions with new technologies. Topics will include textile-based electronics, textile fabrication, algorithmic pattern design, and composites. We will experiment with a wide range of fibers, yarns, and fabrics including traditional materials like wool and cotton as well as metal fibers and yarns, fusible plastics, papers, and resins. We will also explore techniques like felting, laser cutting, CNC knitting, digital printing, and CNC embroidery. Students will complete weekly hands-on assignments and a final project.
This project-based course will explore the future of textiles, focusing particularly on blending rich crafting traditions with new technologies. Topics will include textile-based electronics, textile fabrication, algorithmic pattern design, and composites. We will experiment with a wide range of fibers, yarns, and fabrics including traditional materials like wool and cotton as well as metal fibers and yarns, fusible plastics, papers, and resins. We will also explore techniques like felting, laser cutting, CNC knitting, digital printing, and CNC embroidery. Students will complete weekly hands-on assignments and a final project.
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This project-based course will explore the future of textiles, focusing particularly on blending rich crafting traditions with new technologies. Topics will include textile-based electronics, textile fabrication, algorithmic pattern design, and composites. We will experiment with a wide range of fibers, yarns, and fabrics including traditional materials like wool and cotton as well as metal fibers and yarns, fusible plastics, papers, and resins. We will also explore techniques like felting, laser cutting, CNC knitting, digital printing, and CNC embroidery. Students will complete weekly hands-on assignments and a final project.