Figure 1.
Fluid network updates over time.
This figure shows the fraction of network update events in the fluid condition resulting in the formation of a new tie, the breaking of an existing tie, or no change to the network.
Figure 2.
This figure shows the probability of switching from defection to cooperation as a function of the percentage of neighbors that cooperated in the previous round, in the (a) fixed (b) viscous and (c) fluid conditions. Dots depict the percentage of individuals with the specified range of cooperating neighbors that switched to cooperation, and dot size is proportional to the number of observations. Error bars indicate standard error of the mean.
Table 1.
The Probability of Switching to Cooperation regressed against % Cooperating Neighbors in Previous Round, without Interactions.
Table 2.
The Probability of Switching to Cooperation regressed against % Cooperating Neighbors in Previous Round, with Interactions.
Figure 3.
This figure shows the probability of switching from cooperation to defection as a function of the percentage of neighbors that defected in the previous round, in the (a) fixed (b) viscous and (c) fluid conditions. Dots depict the percentage of individuals with the specified range of defecting neighbors that switched to defection, and dot size is proportional to the number of observations. Error bars indicate standard error of the mean.
Table 3.
The Probability of Switching to Defection regressed against % Cooperating Neighbors in Previous Round, without Interactions.
Table 4.
The Probability of Switching to Defection regressed against % Cooperating Neighbors in Previous Round, with Interactions.