It was an investigation that the robot is pushing the weight as heavy as poosible for more than 50 cm within a minute. So, rather than the speed, the power which the robot is pulling the weight was more important. In the previous investigation (drag race), biggest gear was connected to the driving gear in order to enlarge the speed, however, contrastly, this time we connected biggest gear to the driven gear. so that the power of the robot would be much stronger although the speed of the robot would be decreased.
During the class time, we used 4 gears to increase the power, but ironically, we found that it wasn't so effective. moreover, it was worse than the robot which used only 2 gears.
Thursday, December 11, 2008
Tuesday, December 9, 2008
Chapter 14 classic project
This chapter is about exploring the room using some sensors and techniques. To begin with, year ratio is the eay one to make robot differently. Just by changing the size of the gear, the speed changes. Next one is bumper. This is reltated to the touch sensor. whenever the bumper that connected to touch senser crashed onto an object, it react certain behavior that you ordered before. not only that, other obstacle detection is shown. light sensor! it is mostly used to stop in certain area or to follow the lines. This chapter was very likely a obstacle course challenge summary. it provides most of ideas that is used in obstacle course challenge.
Drag Race Challenge
It was a challenge that whose robot is going to finish 3 m race at first. This investigation, i think, is sat up to use gears.
During the class time, I could see many groups were using huge gear(driving gear) to get much faster spped with smallest gear(driven gear). So, we used 4 gears. 2 was biggest gear and 2 was smallest gear. but it was not up to the expectation. The robot didn't even move 1 cmon the ground!!! but, in the air, the wheels rotateed vigorously. we were shocked. It was weird. From the long discussion, we made a conclusion that motor doesn't have much power to rotate 2 huge gear. It was unexpected result. So, we used 2 medium size gear and 2 smallest gear. This time the robot moved, but it doesn't move as fast as when we used only 2 gear, smallest one and biggest one. Finally, we knew that the best decision is using 2 gears, huge and smallest one. overall, we used biggest gear and smalles gear.
I guess the winner of the race is who has the a robot with good start. (responding time)
During the class time, I could see many groups were using huge gear(driving gear) to get much faster spped with smallest gear(driven gear). So, we used 4 gears. 2 was biggest gear and 2 was smallest gear. but it was not up to the expectation. The robot didn't even move 1 cmon the ground!!! but, in the air, the wheels rotateed vigorously. we were shocked. It was weird. From the long discussion, we made a conclusion that motor doesn't have much power to rotate 2 huge gear. It was unexpected result. So, we used 2 medium size gear and 2 smallest gear. This time the robot moved, but it doesn't move as fast as when we used only 2 gear, smallest one and biggest one. Finally, we knew that the best decision is using 2 gears, huge and smallest one. overall, we used biggest gear and smalles gear.
I guess the winner of the race is who has the a robot with good start. (responding time)
Buidling the Course Robot
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This is how our robot looks likeIt is simple, and ordinary, but it works well...ha ha
Johnny and I spend our first class time only on planning and making our robot.
As some other groups do, we tried to re-make the robot at the beginning. to be more cool and to look fiarly good one.
but we realized soon that we don't have time to managed it, so, unfortunately, our robot stay as a simple and normal one. but our wires are really complicated than any other group! I guarantee
That's how we made our robot!!
Obstacle Course Results/conclusion
This is the one of the investigation that I tried my best to complete succesfully. We made our robot three times from the original one. That's the reason that we could finished it as a first group. Although our robot doesn't seem extraordinary, i am quite satisfied on our result.
We wasn't on the right track from the beginning of the class, we failed to stop in the white square line. This is where I felt very annoyed. till the very end of the class, we could not make robot to stop on the white square and it made me feel more annoyed......
On our second trial, fortunately, the robot stoped stopped in the white quare line. i thought we've gone through all the difficulties of obstacle course challenge, because at that time, our robot didn't stop in the white square line, but it works well on the other courses like turning right after bumping and so on... however, the more difficult task was waiting for us... which was that the robot curves itself to the left side, although we didn't programm the robot in that way.
We stucked on the problem, but soon, we find the solution. it was quite easy when i think about it now. just programe the robot to curve to the right side while it moves forward. With our best effort, we could have opportunity to get a first place, although we couldn't get a full points. Anyway, i think i really enjoyed this investigation than any others!!
I think the problem that we faced is because our robot's weight was leaned to one side.. and maybe friction was the problem, too.
We wasn't on the right track from the beginning of the class, we failed to stop in the white square line. This is where I felt very annoyed. till the very end of the class, we could not make robot to stop on the white square and it made me feel more annoyed......
On our second trial, fortunately, the robot stoped stopped in the white quare line. i thought we've gone through all the difficulties of obstacle course challenge, because at that time, our robot didn't stop in the white square line, but it works well on the other courses like turning right after bumping and so on... however, the more difficult task was waiting for us... which was that the robot curves itself to the left side, although we didn't programm the robot in that way.
We stucked on the problem, but soon, we find the solution. it was quite easy when i think about it now. just programe the robot to curve to the right side while it moves forward. With our best effort, we could have opportunity to get a first place, although we couldn't get a full points. Anyway, i think i really enjoyed this investigation than any others!!
I think the problem that we faced is because our robot's weight was leaned to one side.. and maybe friction was the problem, too.
Gear and Speed (investigation summary)
This investigation is very much related to the ch.2 Gears. It's because the speed of the robot was propotional to the teeth of the Gears. As most of you guys know, the more the teeth, the faster speed the robot have.
Firstly you should set the robot to for forward for 3 seconds.Then you measured the distance that robot travelled. This process is repeated three times for the accurate value. divide average value of the robot travelled by time in order to get the instantaneous speed of the robot. This process will be runned for all conditions, which is used to make hypotheses. then you might predict the value and compare to the actual value. in my case, we've got 49.3cm/s, and our hypothesis was 50.3cm/s.
Tuesday, December 2, 2008
Get in gear investigation
1. what happens if you made your driving gear bigger and driven gear smaller?
If the driving gear is bigger and driven gear is smaller, the robot's speed would be increased. When the driving gear rotates in certain time, the driven gear also rotates. however the driven gear will rotates more due to the size of the gears which is related to the number of teeth.
2. What would hapen if you made your driven gear bigger and your driving gear smaller?
In opposite, when the driven gear is bigger and the driving gear is smaller, the robot's speed would be decreased due to number of teeth's difference. Therefore, the driven gear will rotates less while the driving gear rotates in certain time.
If the driving gear is bigger and driven gear is smaller, the robot's speed would be increased. When the driving gear rotates in certain time, the driven gear also rotates. however the driven gear will rotates more due to the size of the gears which is related to the number of teeth.
2. What would hapen if you made your driven gear bigger and your driving gear smaller?
In opposite, when the driven gear is bigger and the driving gear is smaller, the robot's speed would be decreased due to number of teeth's difference. Therefore, the driven gear will rotates less while the driving gear rotates in certain time.
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