This week marks the final week of the 2012-2013 school year.
This year was marked by a series of ups and downs. We have gained several accomplishments with our first year back from hiatus.
We look to the next year with growing hope. We will begin the new year with a new engineering center, E-103 and E-104. Our team organization has been revised based on the lessons learned from this year. We expect to bring back several of our past events from this year along with new events/projects that will help to elevate the prestige of the team.
We would like to thank all of the students, teachers, parents, administrative members, community members, and ,members of the FIRST Robotics community for their enthusiasm and support during the 2012-2013 school year.
Monday, June 10, 2013
Tuesday, April 16, 2013
FRC inland Empire Regional
March 28 - 30
CSU San Bernardino
In the end, a combination of rookie errors plagued the team through the qualification rounds. We hope to learn from these mistakes and become more competitive in future FRC seasons.
In the end, we finished the regional with a record of 4 wins and 7 losses with a rank of 31.
Specials thanks to everyone who helped us out during the regional. Congrats to FRC 2485 WARlords, FRC 1538 The Holy Cows, and FRC 968 RAWC.
CSU San Bernardino
In the end, a combination of rookie errors plagued the team through the qualification rounds. We hope to learn from these mistakes and become more competitive in future FRC seasons.
In the end, we finished the regional with a record of 4 wins and 7 losses with a rank of 31.
Specials thanks to everyone who helped us out during the regional. Congrats to FRC 2485 WARlords, FRC 1538 The Holy Cows, and FRC 968 RAWC.
Thursday, March 7, 2013
Souplantation Fundraiser
Monday
March 18, 2013
5:00 pm - 8:00 pm
301 E. Huntington Dr.
Arcadia, CA 91006-3747
Help support the Arcadia High School ADvanced Robotics/FIRST Robotics Team 867 through the team's Souplantation Fundraiser night.
Enjoy a night with great food at the Arcadia Souplantation restaurant. It's easy. Just show the flyer to the cashier when completing your payments.
A link to the flyer is posted below:
https://docs.google.com/file/d/0B7pVWuc6Mv1RNW9KM3FPQU9RWWM/edit
March 18, 2013
5:00 pm - 8:00 pm
301 E. Huntington Dr.
Arcadia, CA 91006-3747
Help support the Arcadia High School ADvanced Robotics/FIRST Robotics Team 867 through the team's Souplantation Fundraiser night.
Enjoy a night with great food at the Arcadia Souplantation restaurant. It's easy. Just show the flyer to the cashier when completing your payments.
A link to the flyer is posted below:
Tuesday, February 26, 2013
30 Days till FRC Inland Empire
30 Days until Thursday of FRC IE
Tuesday
February 26, 2013
The team is continuing work on the practice robot. The goal is to have the robot done by the end of the week.
The plan is to utilize on of the old Trinity Robots that have survived the build season as a practice robot chassis. The drivetrain will be converted into a 4 wheel drive. The Shooter-Hopper will be integrated onto the pre-built superstructure of the practice robot.
Tuesday
February 26, 2013
The team is continuing work on the practice robot. The goal is to have the robot done by the end of the week.
The plan is to utilize on of the old Trinity Robots that have survived the build season as a practice robot chassis. The drivetrain will be converted into a 4 wheel drive. The Shooter-Hopper will be integrated onto the pre-built superstructure of the practice robot.
Delta Zero
Robot Name: Delta Zero
Robot Game: 2013 - Ultimate Ascent
Weight: 111 pounds
Autonomous: n/a
Pyramid Climb: Level 1 climber. Consists of 2 pneumatics tanks on the side of the robot. Will be able to lift a 120 pound robot into level 1. A very fast climb, estimated to take less than 10 seconds.
Shooter-Hopper: Linear frisbee launcher with 2 8-inch rubber wheels. Total weight of 23 pounds. Consists of a plexiglass slide and a 5 gallon bucket to store a maximum capacity of 4 frisbees. A feeder mechanism that consists of a VEX 393 motor that push the frisbees into the wheels.
Electronics: The router, speed controllers, relays, and pneumatic air tanks are stored in the sides of the robot. A plexiglass access panel allows for quick access to the electronics for maintenance.
Drivetrain: A 4 wheels drive with 6 inch rubber wheels from Andymark. Two wheels on each side is connected to a single CIMple gearbox with 1 CIM motor through chains instead of belts.
Robot Game: 2013 - Ultimate Ascent
Weight: 111 pounds
Autonomous: n/a
Pyramid Climb: Level 1 climber. Consists of 2 pneumatics tanks on the side of the robot. Will be able to lift a 120 pound robot into level 1. A very fast climb, estimated to take less than 10 seconds.
Shooter-Hopper: Linear frisbee launcher with 2 8-inch rubber wheels. Total weight of 23 pounds. Consists of a plexiglass slide and a 5 gallon bucket to store a maximum capacity of 4 frisbees. A feeder mechanism that consists of a VEX 393 motor that push the frisbees into the wheels.
Electronics: The router, speed controllers, relays, and pneumatic air tanks are stored in the sides of the robot. A plexiglass access panel allows for quick access to the electronics for maintenance.
Drivetrain: A 4 wheels drive with 6 inch rubber wheels from Andymark. Two wheels on each side is connected to a single CIMple gearbox with 1 CIM motor through chains instead of belts.
Day 45 - STOP BUILD
Day 45 of FRC 2013 Build
STOP BUILD DAY
19 February 2013
Tuesday
The robot's electronics have been completed for several days now. The wiring have been dressed. Troubleshooting continued today and all of the issues, except the feeder mechanism, has been resolved.
This year we will retain our shooter-hopper system, which weighs 23 pounds, for further development and practice after the build season. Work on the practice robot have begun in week 6 and will continue with a goal of completing the practice robot before the end of the month.
The construction of the robot is officially complete. Though we were 2 weeks and 3 days behind our original goal of completion of the robot by the end of week 4, we were able to complete our goal of building a robot that is under the weight limit. We are still proud of the fact that we accomplished the robot before the end of the build season and will continue to pursue a faster robot construction process for next year.
The robot is currently bagged and tagged.
STOP BUILD DAY
19 February 2013
Tuesday
The robot's electronics have been completed for several days now. The wiring have been dressed. Troubleshooting continued today and all of the issues, except the feeder mechanism, has been resolved.
This year we will retain our shooter-hopper system, which weighs 23 pounds, for further development and practice after the build season. Work on the practice robot have begun in week 6 and will continue with a goal of completing the practice robot before the end of the month.
The construction of the robot is officially complete. Though we were 2 weeks and 3 days behind our original goal of completion of the robot by the end of week 4, we were able to complete our goal of building a robot that is under the weight limit. We are still proud of the fact that we accomplished the robot before the end of the build season and will continue to pursue a faster robot construction process for next year.
The robot is currently bagged and tagged.
Day 42
Day 42 of FRC 2013 Build
Saturday
16 February 2013
The climbing system is almost complete. The electrical components for the climbing system has been installed. The only issue is that the team is missing a solenoid card for the CRio. We will receive a new solenoid card along with a new 4 slot cRio before the start of the Inland Empire Regional.
The climbing system itself was tested with the robot attached. The climbing system will propel the robot into level 1 of the pyramid.
Further troubleshooting of the robot continued today. We have resolved several issues with the program. We know for sure that the elevation system works. Further troubleshooting will continue through until the robot is bagged.
Saturday
16 February 2013
The climbing system is almost complete. The electrical components for the climbing system has been installed. The only issue is that the team is missing a solenoid card for the CRio. We will receive a new solenoid card along with a new 4 slot cRio before the start of the Inland Empire Regional.
The climbing system itself was tested with the robot attached. The climbing system will propel the robot into level 1 of the pyramid.
Further troubleshooting of the robot continued today. We have resolved several issues with the program. We know for sure that the elevation system works. Further troubleshooting will continue through until the robot is bagged.
Day 41
Day 41 of FRC 2013 Build
February 15, 2013
Friday
The climbing system is fully integrated with the robot's superstructure. The air tanks for the pneumatics have been installed.
Troubleshooting for the robot's shooter-hopper is continuing. There are still some issues to resolve with the pneumatic wheels and the feeder mechanism.
The electrical team is dressing the wires and eliminating any chances of entanglement with the wires.
February 15, 2013
Friday
The climbing system is fully integrated with the robot's superstructure. The air tanks for the pneumatics have been installed.
Troubleshooting for the robot's shooter-hopper is continuing. There are still some issues to resolve with the pneumatic wheels and the feeder mechanism.
The electrical team is dressing the wires and eliminating any chances of entanglement with the wires.
Day 39 - 40
Day 39 - 40 of FRC 2013 Build
Wednesday - Thursday
February 13 - February 14, 2013
The class had to end the Day 39 meeting early. Though the meeting was cut short, we achieved several groundbreaking moments for the robot construction. The climbing system was completed and a plan for the integration has been approved. Integration began in Day 40.
The climbing system is placed on the sides of the robot. It consists of 2 pneumatic cylinders that push down on the 30 inch rung to push the robot into level 1 for 10 points.
Troubleshooting for the shooter-hopper continued though some issues came up. The team will continue to resolve these issues through the rest of Build.
Wednesday - Thursday
February 13 - February 14, 2013
The class had to end the Day 39 meeting early. Though the meeting was cut short, we achieved several groundbreaking moments for the robot construction. The climbing system was completed and a plan for the integration has been approved. Integration began in Day 40.
The climbing system is placed on the sides of the robot. It consists of 2 pneumatic cylinders that push down on the 30 inch rung to push the robot into level 1 for 10 points.
Troubleshooting for the shooter-hopper continued though some issues came up. The team will continue to resolve these issues through the rest of Build.
Day 37 - 38
Day 37 - 38 of FRC 2013 Build
February 12, 2013
Tuesday
The main electronic components of the robot has been installed in their final location including the CRio, Power Distributor, Digital Sidecar, and Router. All of the speed controllers and relays are also installed in their final positions. The electrical team then worked on organization of the wires.
The climbing team completed their alternate climbing system on Day 37 and troubleshooted the system separately from the final robot on Day 38.
The windows motor mount for the elevation mechanism of the shooter-hopper system was installed in Day 38. The windows motor was tested on Day 38, and the windows motor will be able to rotate the shooter-hopper throughout the match and into the climbing position at the end of the match. Integration of the shooter-hopper is complete and troubleshooting for the shooter-hopper begins on Day 40.
February 12, 2013
Tuesday
The main electronic components of the robot has been installed in their final location including the CRio, Power Distributor, Digital Sidecar, and Router. All of the speed controllers and relays are also installed in their final positions. The electrical team then worked on organization of the wires.
The climbing team completed their alternate climbing system on Day 37 and troubleshooted the system separately from the final robot on Day 38.
The windows motor mount for the elevation mechanism of the shooter-hopper system was installed in Day 38. The windows motor was tested on Day 38, and the windows motor will be able to rotate the shooter-hopper throughout the match and into the climbing position at the end of the match. Integration of the shooter-hopper is complete and troubleshooting for the shooter-hopper begins on Day 40.
Day 35
Day 35 of FRC 2013 Build
Saturday
February 9, 2013
The main electronics components and the speed controllers/spike relays have been installed into the robot.
Cross supports for the inner/outer superstructure has been manufactured and installed. Victor speed controller fans will be used to prevent the electronics from overheating. 2 pairs of
The drivetrain have been tested and is working properly. The program and electronics are correct for the drivetrain. The troubleshooting/testing of the drivetrain is now complete.
Saturday
February 9, 2013
The main electronics components and the speed controllers/spike relays have been installed into the robot.
Cross supports for the inner/outer superstructure has been manufactured and installed. Victor speed controller fans will be used to prevent the electronics from overheating. 2 pairs of
The drivetrain have been tested and is working properly. The program and electronics are correct for the drivetrain. The troubleshooting/testing of the drivetrain is now complete.
Thursday, February 14, 2013
Day 34
Day 34 of FRC2013 Build
Friday
February 8, 2013
The team completed the outer superstructure of the robot. The superstructure frame is now complete. Between the inner and outer superstructure will be the speed controllers and spike relays. An access panel on the outer superstructure will provide both protection and access to the electronics for maintenance.
A new climbing system is now required for the robot. After testing of our original level 1 climber, the decision was made by the team to create a new level 1 climber using pneumatics.
Friday
February 8, 2013
The team completed the outer superstructure of the robot. The superstructure frame is now complete. Between the inner and outer superstructure will be the speed controllers and spike relays. An access panel on the outer superstructure will provide both protection and access to the electronics for maintenance.
A new climbing system is now required for the robot. After testing of our original level 1 climber, the decision was made by the team to create a new level 1 climber using pneumatics.
Day 33
Day 33 of FRC2013 Build
Thursday
7 February 2013
The inner superstructure has been completed. The team faced several problems at first with the final height of the superstructure. After some delay with the modification of the superstructure height, the final superstructure in the interior has been completed.
The shooter-hopper has been completed. It is awaiting final integration.
Thursday
7 February 2013
The inner superstructure has been completed. The team faced several problems at first with the final height of the superstructure. After some delay with the modification of the superstructure height, the final superstructure in the interior has been completed.
The shooter-hopper has been completed. It is awaiting final integration.
Monday, February 4, 2013
Day 30
Day 30 of FRC 2013 Build
Monday
February 4, 2013
Team is currently behind schedule. We are working to meet a new build-finish deadline of Wednesday, Day 32, 5 February 2013.
The vertical components for the superstructure is currently in place for the robot. The horizontal components will be installed in Day 31. Other components of the superstructure will be installed in day 31.
The shooter-hopper will be finished by the end of day 31. Many of the components/mechanisms are already established. All that is left is the elevation mechanism for the shooter-hopper.
The climbing system will be installed around day 31 or 32. It is essentially part of the superstructure of the robot.
Without a doubt, the robot will be completed before the end of week 5. We still plan to have time to troubleshoot and practice with the new robot over the course of the next 2 weeks.
Monday
February 4, 2013
Team is currently behind schedule. We are working to meet a new build-finish deadline of Wednesday, Day 32, 5 February 2013.
The vertical components for the superstructure is currently in place for the robot. The horizontal components will be installed in Day 31. Other components of the superstructure will be installed in day 31.
The shooter-hopper will be finished by the end of day 31. Many of the components/mechanisms are already established. All that is left is the elevation mechanism for the shooter-hopper.
The climbing system will be installed around day 31 or 32. It is essentially part of the superstructure of the robot.
Without a doubt, the robot will be completed before the end of week 5. We still plan to have time to troubleshoot and practice with the new robot over the course of the next 2 weeks.
Sunday, February 3, 2013
Day 27
Day 27
Friday
February 1, 2013
We have finalized the hopper-shooter integrated design. It is 90% completed and will be completed in time for final integration.
The deadline for the completion of the robot build has been pushed to Wednesday, February 6.
Parts for integration has been manufactured and will be ready for final integration.
Friday
February 1, 2013
We have finalized the hopper-shooter integrated design. It is 90% completed and will be completed in time for final integration.
The deadline for the completion of the robot build has been pushed to Wednesday, February 6.
Parts for integration has been manufactured and will be ready for final integration.
Friday, February 1, 2013
Day 26
Day 26
Thursday
January 31, 2013
The team continued work on the integration of the hopper-shooter systems. We will have this integrated system done by day 27.
The final integration will begin on day 27. The parts for the frame are gathered and will be ready for integration by day 27.
The frame for the final integrated design has been selected.
The robot will be completed by the end of Saturday, day 28.
Thursday
January 31, 2013
The team continued work on the integration of the hopper-shooter systems. We will have this integrated system done by day 27.
The final integration will begin on day 27. The parts for the frame are gathered and will be ready for integration by day 27.
The frame for the final integrated design has been selected.
The robot will be completed by the end of Saturday, day 28.
Thursday, January 31, 2013
Day 25
Day 25
Wednesday
January 30, 2013
The team continued work on the hopper and shooter systems.
Thanks to the CAD team, the systems integration team came up with 2 final integration options:
Wednesday
January 30, 2013
The team continued work on the hopper and shooter systems.
Thanks to the CAD team, the systems integration team came up with 2 final integration options:
A) The hopper and shooter are interconnected and capable of rotating together. Both are resting on an axel in the center of the robot with the angle of the shooter/hopper manipulated by sprockets and 2 windows motors. We will have the level 1 climber in the center of the robot, around the center of gravity of the robot.
B) The hopper and shooter are interconnected and capable of rotating together. We will have the level 1 climber in the center of the robot, around the center of gravity of the robot. The hopper/shooter is resting on hinges near the front or rear of the robot.
The CAD model of the final integrated robot and all of the systems are completed.
The animation background of the chairman's award video is/near completed.
The hopper/shooter system will be integrated tomorrow.
Expect final integration over the next 3 days. We are pursuing our goal of completion of the total robot by the end of week 4.
CAD Photos
Curious about our team's final robot design with the integration of all systems/mechanisms?
Take a quick look through our CAD photos of the final planned integration design. Several options for integration are still under consideration. We are currently pursuing our goal of completion of the robot construction by the end of week 4.
Take a quick look through our CAD photos of the final planned integration design. Several options for integration are still under consideration. We are currently pursuing our goal of completion of the robot construction by the end of week 4.
Special thanks to Leonid Khoroshev and Scott Mathog of the CAD team for the CAD files.
Wednesday, January 30, 2013
Day 24
Day 24
Tuesday
29 January 2013
We successfully tested the frisbee launcher. We have isolated the stability issues of the Frisbee launcher. The issue is with the wheels itself. Alternative wheels are being sought for the issues. The frisbee feeder for the launcher/hopper will be completed by tomorrow.
We tested the connectivity between the cRio and the laptop/controls. We will have the drivetrain driving by tomorrow.
We are preparing for the final integration of all systems for the robot. The superstructure design is being finalized. We have an idea for how we will integrate all of the systems. We are waiting for the completion of all systems before proceeding with the final integration.
Day 23
Day 23
Monday
28 January 2013
We have tested the frisbee launcher and have discovered issues with the stability of the wheels when moving at full rpm.
The hopper and drivetrain systems are complete. We are waiting to test the drivetrain and have it driving as soon as possible.
We are set to complete the entire robot build by the end of week 4, this Saturday, and begin troubleshooting/final testing.
Friday, January 18, 2013
Day 12
January 17, 2013
Thursday
Day 12 of FRC 2013 Build
The team continued with the construction of the drivetrain. The drivetrain will be completed by Day 13.
The hopper team, frisbee launcher team, and climbing team is currently constructing their frames.
We also weighed the parts for each team. The results from the weighing are posted below:
Climbing System - 14.5 lb.
Hopper System - 4.7 lb.
Frisbee Launcher System - 12.2 lb.
drivetrain - 28.9 lb.
Final weight after weighing - 60.3 lb.
We will work to reduce the weight so that the final robot weight, without the battery and bumpers, will be under 100 lb.
We also calculated the maximum gross weight of the robot:
Max. weight of Climbing System - 30 lb.
Max. weight of Hopper System - 10 lb.
Max. weight of Frisbee Launcher System - 25 lb.
Max. weight of drivetrain - 50 lb.
Max. weight of Final robot - 115 lb.
Thursday
Day 12 of FRC 2013 Build
The team continued with the construction of the drivetrain. The drivetrain will be completed by Day 13.
The hopper team, frisbee launcher team, and climbing team is currently constructing their frames.
We also weighed the parts for each team. The results from the weighing are posted below:
Climbing System - 14.5 lb.
Hopper System - 4.7 lb.
Frisbee Launcher System - 12.2 lb.
drivetrain - 28.9 lb.
Final weight after weighing - 60.3 lb.
We will work to reduce the weight so that the final robot weight, without the battery and bumpers, will be under 100 lb.
We also calculated the maximum gross weight of the robot:
Max. weight of Climbing System - 30 lb.
Max. weight of Hopper System - 10 lb.
Max. weight of Frisbee Launcher System - 25 lb.
Max. weight of drivetrain - 50 lb.
Max. weight of Final robot - 115 lb.
Wednesday, January 16, 2013
Day 11
January 16, 2013
Wednesday
Day 11 of FRC 2013 Build Season
Today the drive team continued to work on the robot chassis/drivetrain.
The frame of the robot is completed and the CIMple gearboxes are installed. The robot will use 4 6" rubber wheels, with 2 wheels connected to a single CIMple gearbox on each side. The dimensions of the chassis is 30" wide by 20" long. So far the drivetrain and the necessary electronics weigh around 30 pounds.
We plan to have the drivetrain running and tested by the end of week 2.
Wednesday
Day 11 of FRC 2013 Build Season
Today the drive team continued to work on the robot chassis/drivetrain.
The frame of the robot is completed and the CIMple gearboxes are installed. The robot will use 4 6" rubber wheels, with 2 wheels connected to a single CIMple gearbox on each side. The dimensions of the chassis is 30" wide by 20" long. So far the drivetrain and the necessary electronics weigh around 30 pounds.
We plan to have the drivetrain running and tested by the end of week 2.
Day 10
Day 10 of FRC 2013 Build
January 15, 2013
Tuesday
Today the team worked on acquiring the necessary parts for each of the various systems.
The Drivetrain team and the Frisbee Hopper team manufactured/acquired most of their necessary parts on Tuesday. The Frisbee Shooter and Pyramid Climbing system teams purchased their necessary parts through Andymark today.
The drivetrain frame is nearly assembled. We are striving to finish the drivetrain by Friday.
January 15, 2013
Tuesday
Today the team worked on acquiring the necessary parts for each of the various systems.
The Drivetrain team and the Frisbee Hopper team manufactured/acquired most of their necessary parts on Tuesday. The Frisbee Shooter and Pyramid Climbing system teams purchased their necessary parts through Andymark today.
The drivetrain frame is nearly assembled. We are striving to finish the drivetrain by Friday.
Monday, January 14, 2013
Day 9
January 14, 2013
Day 9 of FRC 2013 Build
So far the team has finalized the design of the robot.
We will be using a linear launcher and a frisbee loading mechanism, similar to robot in 3 day's frisbee shooter and hopper. We came up with an idea to climb the pyramid and we are pursuing the third level of the pyramid.
We also began working on the drivetrain of the robot. We are hoping to have the drivetrain driving no later than Saturday. Our plan is to finish by the end of week 4.
Day 9 of FRC 2013 Build
So far the team has finalized the design of the robot.
We will be using a linear launcher and a frisbee loading mechanism, similar to robot in 3 day's frisbee shooter and hopper. We came up with an idea to climb the pyramid and we are pursuing the third level of the pyramid.
We also began working on the drivetrain of the robot. We are hoping to have the drivetrain driving no later than Saturday. Our plan is to finish by the end of week 4.
Sunday, January 13, 2013
Day 3 - Day 6
Day 3 - 6 of Build Season
Januar y 8 , 2013 - January 11, 2013
The team worked on prototypes for their basic designs.
The team separated into design teams and each team created basic design concepts based on their strategies.
After creating basic design strategies and using a design matrix to select their preliminary designs, the teams began work on their prototypes.
Students used VEX Robotics kits and any material to simulate their basic designs.
Januar y 8 , 2013 - January 11, 2013
The team worked on prototypes for their basic designs.
The team separated into design teams and each team created basic design concepts based on their strategies.
Students used VEX Robotics kits and any material to simulate their basic designs.
Monday, January 7, 2013
Day 2
Day 2
Monday
January 7, 2013
The team completed all of it's objectives for day 2.
At the beginning of the meeting, students presented their strategies for the FRC 2013 game to the whole class. Following the presentations, the team divided into 4 design groups, with each group concentrating on creating 4 basic design concepts, with 1-2 of those concepts becoming preliminary design concepts.
The team is on track to select the final design by Saturday with construction of the robot to begin on Wednesday at the latest.
Only 43 more days until the Stop-Build day for the robot.
Monday
January 7, 2013
The team completed all of it's objectives for day 2.
At the beginning of the meeting, students presented their strategies for the FRC 2013 game to the whole class. Following the presentations, the team divided into 4 design groups, with each group concentrating on creating 4 basic design concepts, with 1-2 of those concepts becoming preliminary design concepts.
The team is on track to select the final design by Saturday with construction of the robot to begin on Wednesday at the latest.
Only 43 more days until the Stop-Build day for the robot.
Sunday, January 6, 2013
Day 1
Day 1
Sunday
January 6, 2012
No team meeting was held for Day 1, since no meetings are held during Sundays.
Each student were given a homework assignment, create a game strategy for the 2013 game, Ultimate Ascent. This homework assignment is due at the beginning of class on Day 2, Monday January 7.
All students, please note that we are on build schedule until the end of the build season.
As of now, there are only 44 days left until the end of the build season for FRC 2013.
Sunday
January 6, 2012
No team meeting was held for Day 1, since no meetings are held during Sundays.
Each student were given a homework assignment, create a game strategy for the 2013 game, Ultimate Ascent. This homework assignment is due at the beginning of class on Day 2, Monday January 7.
All students, please note that we are on build schedule until the end of the build season.
As of now, there are only 44 days left until the end of the build season for FRC 2013.
Day 0 (FRC Kickoff)
The new game for the 2013 FR5C season is Ultimate Ascent.
The link to the game manual can be found here:
http://frc-manual.usfirst.org/viewItem/3
Today the team began the season by reviewing the game manual and watching the entire FRC Kickoff webcast. The team separated into groups to cover a different section of the game manual (excluding the introduction). After 45 minutes reviewing the sections, each group presented what they found to the class. We completed nearly all of our goals for Day 0.
The link to the game manual can be found here:
http://frc-manual.usfirst.org/viewItem/3
Today the team began the season by reviewing the game manual and watching the entire FRC Kickoff webcast. The team separated into groups to cover a different section of the game manual (excluding the introduction). After 45 minutes reviewing the sections, each group presented what they found to the class. We completed nearly all of our goals for Day 0.
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