Forum for Science, Industry and Business

Sponsored by:     3M 
Search our Site:

 

Online undergrads learn well without strong class bond

19.11.2010
No cohesion, community spirit, trust or interaction? No problem

College students participating in a new study on online courses said they felt less connected and had a smaller sense of classroom community than those who took the same classes in person – but that didnt keep online students from performing just as well as their in-person counterparts.

The study by the University of Nebraska-Lincoln gauged students' perception and performance in three undergraduate science courses that had both online and face-to-face class versions. It found that online students did not feel a sense of cohesion, community spirit, trust or interaction, elements that have been shown to foster effective classroom learning.

At the same time, in the portion of the survey about students' perception of their own learning, online students reported levels equal to those reported by face-to-face students and at the end of the day, their grades were equivalent to their in-person peers.

"Previous research has shown that students who feel like they are connected to their classmates tend to enjoy their classes more and ultimately get better grades," said Robert Vavala, a UNL agronomy graduate student who authored the study. "We wanted to determine if online students felt the same way about their classes that face-to-face students did and if so, whether or not that affected their grades."

Researchers assembled the data from a survey of more than 250 students enrolled in three different entry-level science courses at a large Midwestern public university. The same instructors taught both versions of each of the courses.

Though the results may suggest that face-to-face courses are no more effective for student learning than online courses, Vavala said they also show that online courses could be even more effective if they could foster a culture of class cohesion, spirit, trust and interaction among students.

How does an instructor do that? Perhaps more one-on-one contact and timely feedback between the instructor and online students, according to the study. All three instructors involved in the study said they felt creating a sense of community in their classes was very important, and worked to simulate that experience for online students.

"Because online classes lack actual face-to-face contact, instructors face many challenges in creating classroom community. One of those challenges is that community might not be as important to the online student as it is to their in-person peers," Vavala said.

The study, which was authored by UNL's Vavala, Deana Namuth-Covert, Courtney Haines, Donald Lee, James King and Carol Speth, appeared in a recent edition of The Journal of Natural Resources and Life Sciences Education.

Robert Vavala | EurekAlert!
Further information:
http://www.unl.edu

More articles from Studies and Analyses:

nachricht Drone vs. truck deliveries: Which create less carbon pollution?
31.05.2017 | University of Washington

nachricht New study: How does Europe become a leading player for software and IT services?
03.04.2017 | Fraunhofer-Institut für System- und Innovationsforschung (ISI)

All articles from Studies and Analyses >>>

The most recent press releases about innovation >>>

Die letzten 5 Focus-News des innovations-reports im Überblick:

Im Focus: Can we see monkeys from space? Emerging technologies to map biodiversity

An international team of scientists has proposed a new multi-disciplinary approach in which an array of new technologies will allow us to map biodiversity and the risks that wildlife is facing at the scale of whole landscapes. The findings are published in Nature Ecology and Evolution. This international research is led by the Kunming Institute of Zoology from China, University of East Anglia, University of Leicester and the Leibniz Institute for Zoo and Wildlife Research.

Using a combination of satellite and ground data, the team proposes that it is now possible to map biodiversity with an accuracy that has not been previously...

Im Focus: Climate satellite: Tracking methane with robust laser technology

Heatwaves in the Arctic, longer periods of vegetation in Europe, severe floods in West Africa – starting in 2021, scientists want to explore the emissions of the greenhouse gas methane with the German-French satellite MERLIN. This is made possible by a new robust laser system of the Fraunhofer Institute for Laser Technology ILT in Aachen, which achieves unprecedented measurement accuracy.

Methane is primarily the result of the decomposition of organic matter. The gas has a 25 times greater warming potential than carbon dioxide, but is not as...

Im Focus: How protons move through a fuel cell

Hydrogen is regarded as the energy source of the future: It is produced with solar power and can be used to generate heat and electricity in fuel cells. Empa researchers have now succeeded in decoding the movement of hydrogen ions in crystals – a key step towards more efficient energy conversion in the hydrogen industry of tomorrow.

As charge carriers, electrons and ions play the leading role in electrochemical energy storage devices and converters such as batteries and fuel cells. Proton...

Im Focus: A unique data centre for cosmological simulations

Scientists from the Excellence Cluster Universe at the Ludwig-Maximilians-Universität Munich have establised "Cosmowebportal", a unique data centre for cosmological simulations located at the Leibniz Supercomputing Centre (LRZ) of the Bavarian Academy of Sciences. The complete results of a series of large hydrodynamical cosmological simulations are available, with data volumes typically exceeding several hundred terabytes. Scientists worldwide can interactively explore these complex simulations via a web interface and directly access the results.

With current telescopes, scientists can observe our Universe’s galaxies and galaxy clusters and their distribution along an invisible cosmic web. From the...

Im Focus: Scientists develop molecular thermometer for contactless measurement using infrared light

Temperature measurements possible even on the smallest scale / Molecular ruby for use in material sciences, biology, and medicine

Chemists at Johannes Gutenberg University Mainz (JGU) in cooperation with researchers of the German Federal Institute for Materials Research and Testing (BAM)...

All Focus news of the innovation-report >>>

Anzeige

Anzeige

Event News

Plants are networkers

19.06.2017 | Event News

Digital Survival Training for Executives

13.06.2017 | Event News

Global Learning Council Summit 2017

13.06.2017 | Event News

 
Latest News

Supersensitive through quantum entanglement

28.06.2017 | Physics and Astronomy

X-ray photoelectron spectroscopy under real ambient pressure conditions

28.06.2017 | Physics and Astronomy

Mice provide insight into genetics of autism spectrum disorders

28.06.2017 | Health and Medicine

VideoLinks
B2B-VideoLinks
More VideoLinks >>>