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Time Scarcity and Optimization
Last registered on January 30, 2015


Trial Information
General Information
Time Scarcity and Optimization
Initial registration date
January 30, 2015
Last updated
January 30, 2015 10:53 PM EST
Primary Investigator
Binghamton University
Other Primary Investigator(s)
PI Affiliation
Binghamton University
Additional Trial Information
In development
Start date
End date
Secondary IDs
This project seeks to assess the impact of time scarcity on an individual's optimizing behavior through a lab experiment. Participants will be given an assortment of homogeneous cognitive tasks with arbitrary point values subject to a randomized time limit. Their optimizing behavior will be a function of the order in which they choose to complete the tasks and this will be analyzed across assigned time limits to assess the impact of time scarcity. The project will examine both static (choice between anticipated tasks) and dynamic (choice between anticipated and unanticipated tasks) optimization by randomly selecting participants to receive additional “interruption” tasks during the experiment. Since optimization is in itself a cognitive task and previous studies have demonstrated cognitive function declines as scarcity intensifies, the expected outcome will show an individual's propensity to optimize declines as their time constraint tightens, resulting in inefficient use of time and suboptimal outcomes. Should the results be consistent with this hypothesis, this project will build on recent analyses of poverty and the scarcity mindset, contributing lack of optimization as an additional mechanism by which scarcity perpetuates poverty.
External Link(s)
Registration Citation
Hyde, Kelly and Plamen Nikolov. 2015. "Time Scarcity and Optimization." AEA RCT Registry. January 30. https://doi.org/10.1257/rct.614-1.0.
Former Citation
Hyde, Kelly, Kelly Hyde and Plamen Nikolov. 2015. "Time Scarcity and Optimization." AEA RCT Registry. January 30. http://www.socialscienceregistry.org/trials/614/history/3477.
Experimental Details
Intervention Start Date
Intervention End Date
Primary Outcomes
Primary Outcomes (end points)
Through this experiment, we hope to demonstrate that as the scarcity of a resource intensifies, the propensity of an individual to use that resource optimally decreases, leading to suboptimal outcomes. Optimizing in itself is a cognitive task that carries a cost; for any set of options, there is a nonzero cost to weighing each option's marginal benefit against its marginal cost and comparing this measure across options to choose the best. The burden of scarcity makes this process more difficult, through both its negative impact on cognitive function and the increased weight of the fixed cost of optimizing relative to the budget constraint. This provides an explanation for why a highly constrained individual may not behave rationally, especially in contexts where the marginal benefit of any particular option is unclear or difficult to measure, such as the returns to education. If the consequences of suboptimal choice are severe enough, such an individual may be ensnared in a “poverty trap.”
Primary Outcomes (explanation)
Secondary Outcomes
Secondary Outcomes (end points)
Secondary Outcomes (explanation)
Experimental Design
Experimental Design
To assess individuals’ optimizing behavior under time scarcity, we administer a randomized control trial in which study participants are given an assortment of homogeneous cognitive tasks to complete subject to a randomized time constraint. The range of time constraints are selected so that it is impossible to complete all tasks within the time limit to simulate varying degrees of scarcity. These tasks will be assigned arbitrary point values to simulate heterogeneous marginal benefits, and these point values will be selected so that the tasks can be clearly ranked (i.e., completing one task is strictly preferred to completing another task in all foreseeable cases). To capture the ability to optimize independently, we partially obscure these points through their placement on each page.
Experimental Design Details
Not available
Randomization Method
Randomization done by computer
Randomization Unit
Was the treatment clustered?
Experiment Characteristics
Sample size: planned number of clusters
1000 individuals
Sample size: planned number of observations
Sample size (or number of clusters) by treatment arms
All individuals given a randomized time limit, number of individuals in each time limit not predetermined
300 individuals control, 250 individuals additional information, 250 individuals interruption task, 200 individuals both treatment
Minimum detectable effect size for main outcomes (accounting for sample design and clustering)
IRB Name
Binghamton University Office of Research Compliance
IRB Approval Date
IRB Approval Number