(Press-News.org) People starting to plan for retirement or other big goals should pull out a calculator and multiply the years ahead by 365. Measuring time in days instead of months, or months instead of years, can make future events seem closer and thus more urgent, according to new research published in Psychological Science, a journal of the Association for Psychological Science.
When units of time were manipulated to bring important events closer to the forefront psychologically, people reported that they should start to plan and save significantly earlier, even when future events were described as being tens of thousands of days away.
"This is a new way to think about reaching goals that does not require willpower and is not about having character or caring," explains psychological scientist and lead researcher Daphna Oyserman of the University of Southern California.
Oyserman and co-author Neil Lewis Jr. of the University of Michigan devised a series of seven studies using diverse methods to investigate the relationship between metrics of time and taking action to reach a goal.
First, the researchers assessed how changing the units of time might affect estimates of when an event would occur once preparations were underway.
In two studies, the researchers recruited a total of 162 participants (either online or on a college campus) and asked them to read six scenarios -- three with time metrics and three without time metrics. For the time-metric scenarios, participants imagined that they were shopping, studying, or carrying out other tasks in preparation for various events -- a birthday party, presentation, wedding, exam -- and were asked to report how long it would be until those events occurred.
The results showed that when participants were primed to consider the time in the smaller of two possible units, the event seemed closer. Specifically, events seemed an average of 29.7 days sooner when considered in days instead of months and an average of 8.7 months sooner when considered in months instead of years.
A subsequent series of studies evaluated whether the time metric would influence participants' plans to take action and, if so, whether it was because the shifting metrics helped people to connect their future to their present selves. Adults in the United States were recruited to participate in an online study, yielding more than 1100 participants across four studies. In each study, the vast majority of participants had some college education.
The researchers primed participants with either one of two time metrics for three randomly assigned scenarios. Participants filled in the blank for when they should start saving, cued by units of either days or years to match the scenario given. For example, they were asked to say when they would start saving for college that started in either 18 years or in 6,570 days, for retirement starting in 30 years or in 10,950 days, or for retirement starting in 40 years or in 14,600 days.
The results showed that the time metric affected plans for action: Participants planned to start saving four times sooner in the "days" condition compared with the "years" condition, even after age, income and education were accounted for.
The data suggest that the critical factor underlying the effect was whether participants felt connected with their future selves, which fostered congruence between the future and the present.
Thus, if the future "us" is more like the present "us" (only older), it may help us put aside present-day rewards (spending) in favor of future rewards (saving).
The researchers conclude that people may be able to get themselves working toward goals earlier by using smaller time metrics to feel closer to their future selves. When that happens, says Oyserman, "investing in the future does not seem like a sacrifice."
This particular trick of time, she adds, "may be useful to anyone needing to save for retirement or their children's college, to start working on a term paper or dissertation, pretty much anyone with long-term goals or wanting to support someone who has such goals."
The team is continuing to study ways to make the future feel closer in order to influence other kinds of outcomes, including environmentally responsible behaviors.
INFORMATION:
All materials have been made publicly available via Open Science Framework and can be accessed at https://osf.io/8qkia/. The complete Open Practices Disclosure for this article can be found at http://pss.sagepub.com/content/by/supplemental-data. This article has received the badge for Open Materials. More information about the Open Practices badges can be found at https://osf.io/tvyxz/wiki/view/ and http://pss.sagepub.com/content/25/1/3.full.
For more information about this study, please contact: Daphna Oyserman at daphna.oyserman@gmail.com.
The article abstract is available online: http://pss.sagepub.com/content/early/2015/04/23/0956797615572231.abstract
The APS journal Psychological Science is the highest ranked empirical journal in psychology. For a copy of the article "When Does the Future Begin?: Time Metrics Matter, Connecting Present and Future Selves" and access to other Psychological Science research findings, please contact Anna Mikulak at 202-293-9300 or amikulak@psychologicalscience.org.
When a mirror reflects light, it experiences a slight push. This radiation pressure can be increased considerably with the help of a small superconducting island. This was revealed by the joint research done in the Aalto University and the Universities of Jyväskylä and Oulu. The finding paves a way for the studies of mechanical oscillations at the level of a single photon, the quantum of light. The results of the research were published in Nature Communications in April.
In our everyday lives, the effects of the radiation pressure of light can be neglected. ...
Physicists have shown how heat can be exploited for controlling magnetic properties of matter. The finding helps in the development of more efficient mass memories. The result was published yesterday in Physical Review Letters. The international research group behind the breakthrough included Finnish researchers from the University of Jyväskylä and Aalto University.
The ability to control the huge amount of information within the Internet is largely based on the ability to use the magnetic properties of electrons for reading memory devices. The phenomenon is ...
To meet the demands of 2020, the 5G research has attracted global attention and made remarkable progress. 5G will be the first meaningful unified wideband mobile communication system. A recent research has systematically overviewed the latest progress on the 5G research and highlighted the network architecture and several promising techniques which could be employed in the future 5G systems. The research also foresees potential research keypoints and directions.
The related research paper "Key techniques for 5G wireless communications: network architecture, physical layer, ...
Researchers from the University of Liverpool have used mathematical equations to shed new light on how flowing fluid hinders the movement of bacteria in their search for food.
Many bacteria are mobile and inhabit a variety of dynamic fluid environments: from turbulent oceans to medical devices such as catheters.
Mathematicians from the Universities of Liverpool and Manchester developed a new set of equations to study how flowing fluid affected the movement of bacteria and how the swimming behaviour of the bacteria themselves affected their travel.
Bacteria can ...
New research has indicated that obesity in children has quite different causes at different ages. The research, led by the University of Exeter Medical School and part of the internationally respected EarlyBird Study, could have far-reaching implications for attempts to reduce the global epidemic of childhood obesity, as it indicates that very different approaches may be needed at various stages of development.
In a study published today (Monday April 27) in the International Journal of Obesity, scientists compared data on contemporary children with those of the 1980's. ...
Quantum particles behave in strange ways and are often difficult to study experimentally. Using mathematical methods drawn from game theory, physicists of Ludwig-Maximilias-Universitaet (LMU) in Munich have shown how bosons, which like to enter the same state, can form multiple groups.
When scientists explore the mysterious behavior of quantum particles, they soon reach the limits of present-day experimental research. From there on, progress is only possible with the aid of theoretical ideas. NIM investigator Professor Dr. Erwin Frey and his team at the Dept. of Statistical ...
Silicon (Si) is the second most abundant element of the earth`s crust after oxygen. It has long been neglected by ecologists, as it is not considered an essential nutrient for plants. However, research of recent years showed that it is beneficial for the growth of many plants, including important crops such as rice, wheat and barley.
For instance, Si enhanced the resistance against pests, pathogens and abiotic stresses such as salts, drought and storms. Silicon might, thus, play a crucial role in the development of `sustainable` rice production systems with lower or ...
Emory scientists have adapted an antiviral enzyme from bacteria called Cas9 into an instrument for inhibiting hepatitis C virus in human cells.
The results were published Monday April 27, 2015 in Proceedings of the National Academy of Sciences.
Cas9 is part of the CRISPR genetic defense system in bacteria, which scientists have been harnessing to edit DNA in animals, plants and even human cells. In this case, Emory researchers are using Cas9 to put a clamp on RNA, which hepatitis C virus uses for its genetic material, rather than change cells' DNA.
Although several ...
Many experimental and clinical data have demonstrated that antibiotic-resistance pathogens, such as Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus), may play a vital role in priming chronic inflammation. There is thus a great need to develop novel antibacterial materials, and particularly those that are less likely to lead to bacterial resistance.
Now, in a paper appearing recently in Science Bulletin, a team of scientists at the National Center for Nanoscience and Technology, China, led by Guangjun Nie and Yuliang Zhao, has designed and synthesized biocompatible ...
The autonomous locomotion for a macroscopic machine remains an intriguing issue for the researchers to explore. Recently, Professor LIU Jing and his group from Tsinghua University demonstrated that as a versatile material, the liquid metal could be self-actuated when fueled with aluminum (Al) flake, and the motion thus enabled would persist for more than an hour at a quite high velocity.
Based on the previous study, the present work proposed to realize a much larger liquid metal machine, which could autonomously move and accelerate with the increase of temperature. More ...