El documento contiene una transcripción musical titulada "All Is Mended" compuesta y editada por Steve Hackett. La transcripción fue realizada y editada por Theodore Sansha y está protegida por derechos de autor de Stephen Hackett Ltd. y Big Auk Music.
Concept mapping informed by Cognitive Load Theory: implications for tasks inv...Paulo Correia
Cognitive load theory (CLT) presents principles that serve as guidelines to improve instructional design. CLT foundations are based on a model of human cognitive architecture that assumes an unlimited long-term memory (LTM) and a limited working memory (WM). This cognitive approach aligns with Ausubel’s learning theory but also explains in more detail the role of instructional design (e.g., selection of study materials and organization of the learning tasks) to understand how we construct and automatize schemas. Concept maps (Cmaps) have been widely recognized as a graphical organizer that can foster meaningful learning. However, the cognitive overload caused by tasks involving learner-generated Cmaps has rarely been discussed. Beyond processing the learning content (intrinsic cognitive load) the Cmap elaboration (extraneous cognitive load) must be simultaneously handled by the WM. All this cognitive demand (intrinsic + extraneous cognitive loads) might surpass the learners’ WM resources. The cognitive overload caused by the learner-generated Cmap task hinders meaningful learning. This paper brings new theoretical insights from CLT to discuss the critical role of training novice users to fully understand the central concepts of concept mapping (proposition, focus question, recursive revision, and hierarchy). We advocate the need to improve the instructional design of training methods to reduce the extraneous cognitive load caused by learner-generated Cmap tasks, avoiding the cognitive overload. CLT explains why the lack of effective training on concept mapping produces the naïve Cmaps usually obtained in everyday classrooms.
1. Document Overview
Explore key new features within SCM 7.0 EHP3. Highlight as below:
Netweaver Business Client 4.0 - EhP3 for SCM 7.0
Enhanced Product Planning (EPP) and RoundOffs
SAP APO as Add-On for SAP ERP
SAP APO on HANA
Future Outlook
2. Acknowledgements
-This presentation was originally provided by Claus Bosch from SAP AG
This is a free sample of a music score for "Little Sunflower" by Fat Dog Music. You can listen to the song here:
http://chirb.it/nkxJfd
Check out our website:
http://www.fatdogmusic.co.nz/
Concept mapping informed by Cognitive Load Theory: implications for tasks inv...Paulo Correia
Cognitive load theory (CLT) presents principles that serve as guidelines to improve instructional design. CLT foundations are based on a model of human cognitive architecture that assumes an unlimited long-term memory (LTM) and a limited working memory (WM). This cognitive approach aligns with Ausubel’s learning theory but also explains in more detail the role of instructional design (e.g., selection of study materials and organization of the learning tasks) to understand how we construct and automatize schemas. Concept maps (Cmaps) have been widely recognized as a graphical organizer that can foster meaningful learning. However, the cognitive overload caused by tasks involving learner-generated Cmaps has rarely been discussed. Beyond processing the learning content (intrinsic cognitive load) the Cmap elaboration (extraneous cognitive load) must be simultaneously handled by the WM. All this cognitive demand (intrinsic + extraneous cognitive loads) might surpass the learners’ WM resources. The cognitive overload caused by the learner-generated Cmap task hinders meaningful learning. This paper brings new theoretical insights from CLT to discuss the critical role of training novice users to fully understand the central concepts of concept mapping (proposition, focus question, recursive revision, and hierarchy). We advocate the need to improve the instructional design of training methods to reduce the extraneous cognitive load caused by learner-generated Cmap tasks, avoiding the cognitive overload. CLT explains why the lack of effective training on concept mapping produces the naïve Cmaps usually obtained in everyday classrooms.
1. Document Overview
Explore key new features within SCM 7.0 EHP3. Highlight as below:
Netweaver Business Client 4.0 - EhP3 for SCM 7.0
Enhanced Product Planning (EPP) and RoundOffs
SAP APO as Add-On for SAP ERP
SAP APO on HANA
Future Outlook
2. Acknowledgements
-This presentation was originally provided by Claus Bosch from SAP AG
This is a free sample of a music score for "Little Sunflower" by Fat Dog Music. You can listen to the song here:
http://chirb.it/nkxJfd
Check out our website:
http://www.fatdogmusic.co.nz/
Portafolio final comunicación y expresión ll - ivan alarcon .pptxivandavidalarconcata
Los muros paramétricos son una herramienta poderosa en el diseño arquitectónico que ofrece diversas ventajas, tanto en el proceso creativo como en la ejecución del proyecto.
El Real Convento de la Encarnación de Madrid, una joya arquitectónica y cultural fundada en 1611 por la reina Margarita de Austria, ha sido revitalizado gracias a una avanzada reconstrucción en 3D. Este convento, una maravilla del barroco madrileño, ha sido un pilar en la vida religiosa y cultural de la ciudad durante siglos. Su rica historia y su valor patrimonial han sido capturados en esta innovadora reconstrucción, diseñada para su exploración, una tecnología que combina la realidad virtual y aumentada para ofrecer una experiencia inmersiva y educativa.
La reconstrucción comenzó con una exhaustiva recopilación de datos históricos y arquitectónicos, incluyendo planos originales y fotografías de alta resolución. Estos recursos permitieron a los especialistas crear una réplica digital precisa del convento. Utilizando software de modelado avanzado, cada elemento arquitectónico y decorativo fue cuidadosamente recreado, desde los majestuosos muros exteriores hasta los intrincados detalles del interior, como los frescos y el retablo mayor.
El resultado es un modelo 3D que no solo respeta la integridad histórica y artística del convento, esto permite que un futuro los usuarios pueden explorar virtualmente el convento, navegando por sus pasillos, admirando su arte sacro y descubriendo detalles ocultos que, de otro modo, serían inaccesibles.
Esta reconstrucción no solo preserva la historia del Real Convento de la Encarnación, sino que la hace accesible a un público global, permitiendo a estudiantes, historiadores y amantes del arte experimentar la grandeza del convento desde cualquier lugar del mundo. Además, la implementación de tecnologías de realidad virtual y aumentada ofrece nuevas oportunidades para la educación y el turismo cultural, haciendo del convento un ejemplo brillante de cómo la tecnología puede ayudar a preservar y difundir el patrimonio histórico.
En resumen, la reconstrucción 3D del Real Convento de la Encarnación es un proyecto que combina el respeto por la historia con la innovación tecnológica, asegurando que este tesoro del barroco madrileño continúe inspirando y educando a futuras generaciones