Publication Date
In 2025 | 0 |
Since 2024 | 0 |
Since 2021 (last 5 years) | 1 |
Since 2016 (last 10 years) | 7 |
Since 2006 (last 20 years) | 7 |
Descriptor
College Science | 17 |
Computer Oriented Programs | 17 |
Science Laboratories | 17 |
Chemistry | 10 |
Higher Education | 10 |
Science Education | 8 |
Science Instruction | 7 |
Science Equipment | 5 |
Science Experiments | 5 |
Computer Uses in Education | 4 |
Educational Technology | 4 |
More ▼ |
Source
Journal of Chemical Education | 12 |
American Journal of Physics | 1 |
Chemical Engineering Education | 1 |
EURASIA Journal of… | 1 |
Journal of College Science… | 1 |
Physiologist | 1 |
Author
An, Jiwoo | 1 |
Bishop, Beverly | 1 |
Bowen, Ryan S. | 1 |
Chlad, Frank L. | 1 |
DeKorver, Brittland K. | 1 |
Doane, Lawrence M. | 1 |
Ebeling, Ruth E. | 1 |
Esvan, Yannick J. | 1 |
Fish, Jason | 1 |
Hardy, James K. | 1 |
Harshita Laddha | 1 |
More ▼ |
Publication Type
Journal Articles | 17 |
Reports - Descriptive | 11 |
Reports - Research | 4 |
Guides - Classroom - Learner | 1 |
Guides - Classroom - Teacher | 1 |
Speeches/Meeting Papers | 1 |
Education Level
Higher Education | 7 |
Postsecondary Education | 7 |
Audience
Practitioners | 4 |
Teachers | 1 |
Location
China | 1 |
Laws, Policies, & Programs
Assessments and Surveys
What Works Clearinghouse Rating
Priya Yadav; Harshita Laddha; Madhu Agarwal; Ragini Gupta – Journal of Chemical Education, 2022
A smartphone-based digital imaging method has been successfully introduced in an undergraduate laboratory class to quantify fluoride ions in water. Students first synthesized the chemosensor (E)-2-(1-(6-nitro-2-oxo-2H-chromen-3-yl)ethylidene)-N-phenylhydrazine-1-carbothioamide (CT) via an eco-friendly and green microwave-assisted protocol and…
Descriptors: Handheld Devices, Telecommunications, Educational Technology, College Science
Vergne, Matthew J.; Smith, J. Dominic; Bowen, Ryan S. – Journal of Chemical Education, 2020
An online virtual escape-room game was created using the Google Forms survey app for an undergraduate chemistry lab class. Zoom video conferencing service was used to make the activity a collaborative learning experience. The theme was an escape from an abandoned chocolate factory, and the students solved problems to move to the next section or…
Descriptors: Undergraduate Students, College Science, Chemistry, Distance Education
Esvan, Yannick J.; Zeinyeh, Wael – Journal of Chemical Education, 2020
The Fourier transformation (FT) is a mathematical process frequently encountered by chemistry students. However, it remains an automated background process perceived by many students as difficult to understand. In this paper we present a simple open-source web application, which can help students to understand the basics of the FT applied to…
Descriptors: Chemistry, Spectroscopy, Laboratory Procedures, Laboratory Experiments
An, Jiwoo; Poly, Laila-Parvin; Holme, Thomas A. – Journal of Chemical Education, 2020
In general chemistry laboratories, students learn practical laboratory skills through hands-on activities and are exposed to new scientific instruments. However, these instruments are often viewed as black boxes for various reasons, where students do not know how to use them or what the instruments are capable of. This tendency is likely to induce…
Descriptors: Usability, Chemistry, Science Laboratories, Science Equipment
Plunkett, Kyle N. – Journal of Chemical Education, 2019
This paper provides two demonstrations of how Augmented Reality (AR), which is the projection of virtual information onto a real-world object, can be applied in the classroom and in the laboratory. Using only a smart phone and the free HP Reveal app, content rich AR notecards were prepared. The physical notecards are based on Organic Chemistry I…
Descriptors: Computer Simulation, Educational Technology, Handheld Devices, Computer Oriented Programs
Hensiek, Sarah; DeKorver, Brittland K.; Harwood, Cynthia J.; Fish, Jason; O'Shea, Kevin; Towns, Marcy – Journal of Chemical Education, 2016
Building on previous success with a digital pipet badge, an evidence-centered design approach was used to develop new digital badges for measuring the volume of liquids with a buret and making a solution in a volumetric flask. These badges were implemented and assessed in two general chemistry courses. To earn the badges, students created videos…
Descriptors: Chemistry, Science Instruction, Technology Uses in Education, Educational Technology
Shi, Wei-Zhao; Sun, Jiajun; Xu, Chong; Huan, Weiliang – EURASIA Journal of Mathematics, Science & Technology Education, 2016
In this study, smartphone was used to alter the traditional procedure by involving students in active learning experiences prior to the laboratory meeting. The researcher surveyed students' view on the effect of using smartphone to enhance learning in the general physics laboratory. The use of smartphone was evaluated by having 120 students who…
Descriptors: Telecommunications, Handheld Devices, Technology Uses in Education, Active Learning
Bishop, Beverly – Physiologist, 1985
Describes how a traditional neurophysiology laboratory has been computerized and how students work with digitizing on-line data. Points out advantages of computerization, including the speed, accuracy, and reliability in the acquisition, reduction, and analysis of data. Also describes four generic computer programs tailored to the particular…
Descriptors: College Science, Computer Oriented Programs, Computer Software, Higher Education

Moore, John W., Ed. – Journal of Chemical Education, 1981
Supplies short descriptions of several computer applications in the college science classroom and laboratory, including: applications; interfacing and data collection with the TRS-80; programs for activity corrections in acid/base and precipitation titration curve calculations; computer-assisted data analysis of enzyme kinetics; and microcomputer…
Descriptors: Chemistry, College Science, Computer Oriented Programs, Computers

Chlad, Frank L.; Hardy, James K. – Journal of Chemical Education, 1983
Safety procedures used by Department of Chemistry at the University of Akron are discussed. These include policy that no chemicals are stored in the teaching laboratories. Instead, dispensing stockrooms are used to service the laboratories. Other aspects discussed include ventilation procedures and development of microprocessor use in stockrooms.…
Descriptors: Chemistry, College Science, Computer Oriented Programs, Computer Programs

Morari, M.; Ray, W. H. – Chemical Engineering Education, 1980
Presents Part II of a description of a computer-oriented course on process control which has been offered at the University of Wisconsin for undergraduate students. Lecture topics and laboratory experiments are also included. (HM)
Descriptors: College Science, Computer Oriented Programs, Course Descriptions, Engineering Education

Doane, Lawrence M.; And Others – Journal of Chemical Education, 1979
Explains two approaches to the automatic arrest of a potentiometric titration. (SA)
Descriptors: Chemical Analysis, College Science, Computer Assisted Instruction, Computer Oriented Programs

Lunney, David; Morrison, Robert C. – Journal of Chemical Education, 1981
Details the use of measuring instruments, computer terminals, and other high technology laboratory aids for the visually handicapped chemistry student. Use of these aids at East Carolina University is also described. (CS)
Descriptors: Chemistry, College Science, Computer Oriented Programs, Computers

Ebeling, Ruth E. – Journal of College Science Teaching, 1988
Explains a method for keeping track of chemicals, supplies, and equipment by using a computer. Describes stockroom personnel, department needs, the physical plant, restocking procedures, file setup, and effectiveness of the program. Examples of sample inventory forms are included. (RT)
Descriptors: College Science, Computer Oriented Programs, Computer Uses in Education, Equipment Storage

Karpinski, Mary – Journal of Chemical Education, 1987
Discusses the problems of increased noise levels when using microcomputers as interfaces to chemistry laboratory instruments. Describes how to properly connect a laboratory instrument to a microcomputer's A/D converter board. Suggests how to obtain an analog signal free of interference noise. (TW)
Descriptors: Chemistry, College Science, Computer Oriented Programs, Computer Uses in Education
Previous Page | Next Page ยป
Pages: 1 | 2