Delta Hook Technology (Semester Unknown) EnPRO 358: DHTEnPRO358PosterSp10

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Delta Hook Technology (Semester Unknown) EnPRO 358: DHTEnPRO358FinalPresentationSp10

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Delta Hook Technology (Semester Unknown) EnPRO 358: DHTEnPRO358Poster2Sp10

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Delta Hook Technology (Semester Unknown) EnPRO 358

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Delta Hook Technology (Semester Unknown) EnPRO 358: DHTEnPRO358FinalReportSp10

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Delta Hook Technology (Semester Unknown) EnPRO 358: DHTEnPRO358ProjectPlanSp10

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Delta Hook Technology (Semester Unknown) EnPRO 358: DHTEnPRO358MidTermPresentationSp10

Recreational fishing is a sizable market, generating over a billion dollars of economic output and providing well over a million American’s with jobs. There are many variations of fishing hooks available that retain the same basic shape and structure, the most popular examples being, the standard J-hook, treble hook and the new “Trokar”, which is “surgically sharpened”. However, there are many limitations associated with existing fishing hooks. One such limitation is that fishing hooks are not able to reliably hold the fish after embedding. Introducing a barb to the hook usually solves this issue, doing so however creates problems when setting the hook and furthermore, barbs can cause damage to the fish during the removal process. Another concern is that contemporary fishing hooks have problems with snagging on nearby rock formations, algae, weeds, or other vegetation in the water.Sponsorship: DHTDeliverable

Fab Lab: Creating Design-to-Prototype Learning Modules at the Museum of Science and Industry (sequence unknown), IPRO 333 - Deliverables: IPRO 333 Poster F09

The primary objective of IPRO 333 is to partner the knowledge and ideas of young engineers, architects, and scientists at IIT with the resources of the Museum of Science and Industry (MSI) in Chicago. This partnership endeavors to help the museum's Fabrication Laboratory (Fab Lab) maximize its potential as a resource for museum guests, young and old, as well as for IIT students, staff, and faculty.Sponsorship: Museum of Science and Industry. Steven Willis- Director, Fabrication LabDeliverables for IPRO 333: Fab Lab: Creating Design-to-Prototype Learning Modules at the Museum of Science and Industry for the fall 2009 semeste

Fab Lab (Semester Unknown) IPRO 333: FabLabIPRO333MidTermPresentationF09

Fabrication Laboratories, or Fab Labs, were started as a community outreach program by the Massachusetts Institute of Technology and provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry has partnered with this IPRO to further develop the Fab Lab at their site. IPRO 333 currently works with the administration in the Fab lab of MSI to design materials and activities for increasing the use of the laboratory. IPRO 333 aims to broaden the possible uses of the lab, promote membership at the museum, and increasing participation by the community in science and technology programs at the museum.Sponsorship: Fabrication Laboratories, or Fab LabsDeliverable

Fab Lab: Creating Design-to-Prototype Learning Modules at the Museum of Science and Industry (sequence unknown), IPRO 333 - Deliverables

The primary objective of IPRO 333 is to partner the knowledge and ideas of young engineers, architects, and scientists at IIT with the resources of the Museum of Science and Industry (MSI) in Chicago. This partnership endeavors to help the museum's Fabrication Laboratory (Fab Lab) maximize its potential as a resource for museum guests, young and old, as well as for IIT students, staff, and faculty.Sponsorship: Museum of Science and Industry. Steven Willis- Director, Fabrication LabDeliverables for IPRO 333: Fab Lab: Creating Design-to-Prototype Learning Modules at the Museum of Science and Industry for the fall 2009 semeste