84 inch diameter vertical right cylindrical volume ?

[EricH]

The height is of the cylinder. The height of the box is not separate from the box base (normal configuration). The way it works is with orientation to the robot. Therefore, should the robot tip completely onto one side, it is now in a horizontal right cylinder with a 90" length and an 84" diameter.

[Matt C]

Quote:

Originally Posted by EricH

The height is of the cylinder. The height of the box is not separate from the box base (normal configuration). The way it works is with orientation to the robot. Therefore, should the robot tip completely onto one side, it is now in a horizontal right cylinder with a 90" length and an 84" diameter.

The rule states it is a "vertical right cylinder", therefore it would not move with the robot, but is stationary. Rule <G30> allows for righting of your robot by allowing them to "expand up to the FINALE CONFIGURATION volume while, and only while, performing the righting operation."

[EricH]

Quote:

Originally Posted by Matt C

The rule states it is a "vertical right cylinder", therefore it would not move with the robot, but is stationary.

I guess someone needs to go read <R10>.

Quote:

<R10> During the MATCH, the ROBOT will assume one of two operating configurations. When in each configuration, the ROBOT shall fit within the limits shown below (note: these limits are defined in reference to the ROBOT, not the FIELD).

With regards to the timeframe, rule <G30-C> would trump the definition of FINALE CONFIGURATION, as it explicitly allows expansion up to said configuration provided the tower is being contacted. Also note the use of "i.e.", which in modern usage usually means something to the effect of "such as" or "that is". It's defining the Finale; the finale configuration is the configuration the robot would take during the Finale; <G30-C> allows expansion up to the limits of the Finale Configuration, provided the tower is contacted.

[Matt C]

Quote:

Originally Posted by EricH

I guess someone needs to go read <R10>.

With regards to the timeframe, rule <G30-C> would trump the definition of FINALE CONFIGURATION, as it explicitly allows expansion up to said configuration provided the tower is being contacted. Also note the use of "i.e.", which in modern usage usually means something to the effect of "such as" or "that is". It's defining the Finale; the finale configuration is the configuration the robot would take during the Finale; <G30-C> allows expansion up to the limits of the Finale Configuration, provided the tower is contacted.

You are correct, I missed the note on R10, this is the first time they have ever explicitely called out the volume referenced to the ROBOT, my guess is they see a lot of robots flipping over this year.

[854 bears]

Sorry, but you lost me... initially Chris is me and Matt C said that so long as your robot fits within those dimensions you are alright, but it sounds like now Matt C is saying that this cylinder is in fact centered on the robot base.

Would the word "right" in the phrase: 84" diameter vertical right cylinder volume, be referring to the fact that it remains perpendicular to the robot base, rather than centered around it? Also if it is so rigidly fixed to the robot, that would disallow extending below the robot base, or would the extension just have to fit inside the 90" height maximum?

Which is correct?

[GaryVoshol]

A right cylinder is one where the walls meet the top and bottom at right angles. Think roll of paper towels sitting upright on the kitchen counter.

If the walls of the cylinder are not at 90* to the base of the cylinder, it is not a right cylinder. And the top and bottom would be elipses rather than circles.

The cylinder remains aligned in relation to the robot. If the robot tips over, the invisible cylinder tips over too, so it is laying on its side. This is different than what happened in previous games. For instance in Rack-n-Roll, if you tipped over while you were extending to put a ringer on the top spider leg, you probably violated the size constraints.

The robot does not have to be centered in the cylinder, it just has to fit into it at all times.

[854 bears]

Thank alot Gary. But also do you think that the bumpers would have to be included within this 84" maximum? or is it just to the edge of the robot perimeter?

[engunneer]

The bumpers are part of the robot for all rules except weight and the 28x38 max frame perimeter.

Edit: I stand corrected, see below. The rule exempts them from all configurations.

[GaryVoshol]

Quote:

8.2 DEFINITIONS
BUMPERS – Bumper assemblies designed to attach to the exterior of the ROBOT within the BUMPER ZONE, and constructed as specified in Rule <R07>. BUMPERS are excluded from the weight and volume calculations specified in Rule <R10>.

Quote:

<R07> Teams are required to use BUMPERS on their ROBOTS. BUMPERS have several advantages, such as reducing damage to ROBOTS when they contact other ROBOTS or ARENA elements, and being excluded from the calculation of ROBOT weight and volume constraints specified in Rule <R10>.

(emphasis mine)

Since <R10> defines both NORMAL CONFIGURATION and FINALE CONFIGURATION limits, the bumpers are excluded from both.

[Matt C]

Quote:

Originally Posted by 854 bears

but it sounds like now Matt C is saying that this cylinder is in fact centered on the robot base.

I had just missed the note that stated it is in reference to the robot, not the field, meaning that if the robot tips, so does the cylinder. Now I just feel my figure is correct whether the robot shown is upside down, right side up, sideways, or slantways in regard to the field.

[854 bears]

alright, thanks for all your help!