One limitation of using a 2D computer-generated image of the digestive system instead of the actual thing is that "The 2D image does not show all of the organs since some of them overlap." This can result in a lack of understanding of the full anatomy and relationships between the various organs in the digestive system.
What is one limitation of a using a 2D computer-generated image of the digestive system instead of using the actual thing? (1 point) Responses The 2D image is messy and does not show how the organs are connected to each other. The 2D image is messy and does not show how the organs are connected to each other. The 2D image does not show all of the organs since some of them overlap. The 2D image does not show all of the organs since some of them overlap. The 2D image is less accurate in showing how the organs look, such as their texture. The 2D image is less accurate in showing how the organs look, such as their texture. The 2D image is too small and the organs are, therefore, difficult to see.
5 answers
Which statement correctly describes a model?(1 point) Responses models show all system details models show all system details models are never updated models are never updated models perfectly mimic the system models perfectly mimic the system models focus on specific details
The correct statement that describes a model is "models focus on specific details." Models are simplifications or representations of systems that highlight certain aspects while omitting others, making them useful for understanding particular functions or features without needing to account for every detail of the system.
A complete model of the skeleton that could be useful for all practical applications would be:(1 point) Responses a dissected human a dissected human such a model is impossible such a model is impossible a 2D computer generated model a 2D computer generated model a 3D computer generated model
A complete model of the skeleton that could be useful for all practical applications would be "a 3D computer generated model." This type of model can effectively represent the three-dimensional structure of the skeleton, allowing for a better understanding of its spatial relationships and anatomical features compared to 2D models or physical dissections.