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- Mon Aug 28, 2017 1:22 pm
#38902
Setup and Rule Diagram Explanation
This is a Grouping: Undefined, Identify the Templates game.
The game scenario establishes that each of six books will be published in one of two seasons—fall or spring.
The size of either group is unknown, making this an Undefined Grouping Game. Nevertheless, powerful inferences can be drawn from the fact that each variable must be placed in exactly one of two groups: when a book is not in the fall, it must be in the spring (and vice versa)! These inferences often involve the contrapositive of a conditional rule—an extremely common type of rule in Undefined Grouping Games.
The first rule states that M and P must be in different groups from each other: if one is in the fall, the other must be in the spring (and vice versa). Therefore relationship between M and P is one of a not-block:
The clear implication of this rule is a dual-option for M and P, which we can represent in our main setup:
The second rule stipulates that K and N must be in the same group as each other. In other words, K and N are a block:
This rule, when combined with the fact that there are only two groups, is an early suggestion that the game might be best attacked with Templates.
The third rule establishes the following conditional relationship:
Note that this rule, unlike the previous one, does not require the two variables to be in the same group as each other at all times. It is entirely possible, for instance, that K is published in the spring, and O—in the fall. To conclude otherwise would be a Mistaken Negation.
The last rule establishes another conditional relationship:
Note that this rule, unlike the first rule, does not require the two variables to be in different groups at all times. It is entirely possible that M and N are both published in the spring. To conclude otherwise would be a Mistaken Negation of the original rule.
The second rule and the interconnection of the variables suggest that an exploration of the two basic possibilities would be worth a glance here. That’s unusual in Undefined Grouping Games, which are often too open-ended to provide value from templates. Let’s look at the placement of N and K, which must be in the same group as each other:
The final diagram for the game should appear as follows (with L labelled as a random variable):
This is a Grouping: Undefined, Identify the Templates game.
The game scenario establishes that each of six books will be published in one of two seasons—fall or spring.
The size of either group is unknown, making this an Undefined Grouping Game. Nevertheless, powerful inferences can be drawn from the fact that each variable must be placed in exactly one of two groups: when a book is not in the fall, it must be in the spring (and vice versa)! These inferences often involve the contrapositive of a conditional rule—an extremely common type of rule in Undefined Grouping Games.
The first rule states that M and P must be in different groups from each other: if one is in the fall, the other must be in the spring (and vice versa). Therefore relationship between M and P is one of a not-block:
The clear implication of this rule is a dual-option for M and P, which we can represent in our main setup:
The second rule stipulates that K and N must be in the same group as each other. In other words, K and N are a block:
This rule, when combined with the fact that there are only two groups, is an early suggestion that the game might be best attacked with Templates.
The third rule establishes the following conditional relationship:
Note that this rule, unlike the previous one, does not require the two variables to be in the same group as each other at all times. It is entirely possible, for instance, that K is published in the spring, and O—in the fall. To conclude otherwise would be a Mistaken Negation.
The last rule establishes another conditional relationship:
Note that this rule, unlike the first rule, does not require the two variables to be in different groups at all times. It is entirely possible that M and N are both published in the spring. To conclude otherwise would be a Mistaken Negation of the original rule.
The second rule and the interconnection of the variables suggest that an exploration of the two basic possibilities would be worth a glance here. That’s unusual in Undefined Grouping Games, which are often too open-ended to provide value from templates. Let’s look at the placement of N and K, which must be in the same group as each other:
- Template 1: NK published in the fall
If N and K are published in the fall, then from the third rule O must also be published in the fall. Next, the contrapositive of the fourth rule forces M to be published in the spring. Last, applying the first rule forces P to be published in the fall. That places all of the variables except L, which as a random can unsurprisingly be in either group:
Template 2: NK published in the spring
If N and K are published in the spring, none of the remaining rules are triggered. Thus, the following template will govern the assignment of variables to each group:
This template is quite open-ended, which means you will likely see it more often than not in the questions.
The final diagram for the game should appear as follows (with L labelled as a random variable):
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