FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2899520072> ?p ?o ?g. }

• W2899520072 endingPage "012002" @default.
• W2899520072 startingPage "012002" @default.
• W2899520072 abstract "Many students have problems when it comes to describing the shapes of displacement, velocity and acceleration-time graphs (x, v, a-t graphs), conversion of graphs from one form into another, and calculating and getting the meaning of slopes and areas under kinematics graphs. They often describe shapes of graphs as pictures and give interpretation without taking into cognizance of the type of graph being considered. In this study, 37 first year university physics students (Group One: 17 students and Group Two: 20 students) at the University of Education in Winneba (Ghana) in two consecutive years, were introduced to the use of microcomputer based laboratory (MBL) tools; simulations and graph samples to practice and describe the shapes of kinematics graphs; conversion of graphs from one form to the other; calculation of slopes and areas under kinematics graphs, and their meanings, all in an interactive engagement teaching. Students were made to answer the Test of Understanding Graphs in Kinematics (TUG-K) before and after the introduction of the use of MBL tools, simulations and graph samples. Students' scores were compiled and converted to mean proportion scores and average normalized gain 〈g〉, under the four concepts Area under the graph (meaning and calculation); Slope (meaning and calculation); Graph description; and Graph transformation. The results indicate that the first year university students in the two groups all did better in describing the shapes of kinematics graphs, transforming kinematics graphs, calculating and getting the meaning of slopes and areas under kinematics graphs when they were tested with the same instrument after instruction in kinematics. This goes to show that MBL tools, simulations and graph samples when used in an interactive engagement manner can improve the teaching and learning of kinematics graphs in physics." @default.
• W2899520072 created "2018-11-16" @default.
• W2899520072 creator A5011482322 @default.
• W2899520072 creator A5043816384 @default.
• W2899520072 creator A5067531323 @default.
• W2899520072 date "2018-09-01" @default.
• W2899520072 modified "2023-10-14" @default.
• W2899520072 title "Understanding kinematics graphs using MBL tools, simulations and graph samples in an interactive engagement context in a Ghanaian university" @default.
• W2899520072 cites W1969865542 @default.
• W2899520072 cites W1987288339 @default.
• W2899520072 cites W2004287174 @default.
• W2899520072 cites W2004970644 @default.
• W2899520072 cites W2008785686 @default.
• W2899520072 cites W2026701456 @default.
• W2899520072 cites W2062738329 @default.
• W2899520072 cites W2089600355 @default.
• W2899520072 cites W2102513235 @default.
• W2899520072 cites W2140197227 @default.
• W2899520072 cites W2155274161 @default.
• W2899520072 cites W2528851042 @default.
• W2899520072 doi "https://doi.org/10.1088/1742-6596/1076/1/012002" @default.
• W2899520072 hasPublicationYear "2018" @default.
• W2899520072 type Work @default.
• W2899520072 sameAs 2899520072 @default.
• W2899520072 citedByCount "4" @default.
• W2899520072 countsByYear W28995200722022 @default.
• W2899520072 countsByYear W28995200722023 @default.
• W2899520072 crossrefType "journal-article" @default.
• W2899520072 hasAuthorship W2899520072A5011482322 @default.
• W2899520072 hasAuthorship W2899520072A5043816384 @default.
• W2899520072 hasAuthorship W2899520072A5067531323 @default.
• W2899520072 hasBestOaLocation W28995200721 @default.
• W2899520072 hasConcept C118615104 @default.
• W2899520072 hasConcept C121332964 @default.
• W2899520072 hasConcept C132525143 @default.
• W2899520072 hasConcept C145420912 @default.
• W2899520072 hasConcept C15744967 @default.
• W2899520072 hasConcept C166957645 @default.
• W2899520072 hasConcept C205649164 @default.
• W2899520072 hasConcept C2779343474 @default.
• W2899520072 hasConcept C2780876879 @default.
• W2899520072 hasConcept C33923547 @default.
• W2899520072 hasConcept C39920418 @default.
• W2899520072 hasConcept C41008148 @default.
• W2899520072 hasConcept C542102704 @default.
• W2899520072 hasConcept C74650414 @default.
• W2899520072 hasConceptScore W2899520072C118615104 @default.
• W2899520072 hasConceptScore W2899520072C121332964 @default.
• W2899520072 hasConceptScore W2899520072C132525143 @default.
• W2899520072 hasConceptScore W2899520072C145420912 @default.
• W2899520072 hasConceptScore W2899520072C15744967 @default.
• W2899520072 hasConceptScore W2899520072C166957645 @default.
• W2899520072 hasConceptScore W2899520072C205649164 @default.
• W2899520072 hasConceptScore W2899520072C2779343474 @default.
• W2899520072 hasConceptScore W2899520072C2780876879 @default.
• W2899520072 hasConceptScore W2899520072C33923547 @default.
• W2899520072 hasConceptScore W2899520072C39920418 @default.
• W2899520072 hasConceptScore W2899520072C41008148 @default.
• W2899520072 hasConceptScore W2899520072C542102704 @default.
• W2899520072 hasConceptScore W2899520072C74650414 @default.
• W2899520072 hasLocation W28995200721 @default.
• W2899520072 hasOpenAccess W2899520072 @default.
• W2899520072 hasPrimaryLocation W28995200721 @default.
• W2899520072 hasRelatedWork W122584421 @default.
• W2899520072 hasRelatedWork W2066693961 @default.
• W2899520072 hasRelatedWork W2365600428 @default.
• W2899520072 hasRelatedWork W2368363778 @default.
• W2899520072 hasRelatedWork W2374219405 @default.
• W2899520072 hasRelatedWork W2378387552 @default.
• W2899520072 hasRelatedWork W2389257519 @default.
• W2899520072 hasRelatedWork W2753351751 @default.
• W2899520072 hasRelatedWork W3185180338 @default.
• W2899520072 hasRelatedWork W4244295168 @default.
• W2899520072 hasVolume "1076" @default.
• W2899520072 isParatext "false" @default.
• W2899520072 isRetracted "false" @default.
• W2899520072 magId "2899520072" @default.
• W2899520072 workType "article" @default.