> For most continued learning it's better if the university uses calculators, compilers, prepared learning materials, and other things that do stuff on behalf of the students instead of setting the bar permanently to "the student should want to engage everything at a base level or they must not be here to learn".
IMHO, the example of using calculators in a learning environment is a great topic to explore.
Using calculators in a university setting is entirely reasonable as it is expected students have already mastered the math calculators automate. Formulae calculators are also included as, again, the expectation is a student capable of defining them have an understanding of what they are and when to use them.
Now, contrast the above with using calculators in elementary school, where basic math is an entirely new concept and the subject being taught. Here, the expectation is students learn how to perform the operations themselves through varied exercises, questions to the instructor, and practice.
> It allows much more advanced learning to be done in the long run.
Only if the fundamentals have already been established. Which leads back to my original question:
IMHO, the example of using calculators in a learning environment is a great topic to explore.
Using calculators in a university setting is entirely reasonable as it is expected students have already mastered the math calculators automate. Formulae calculators are also included as, again, the expectation is a student capable of defining them have an understanding of what they are and when to use them.
Now, contrast the above with using calculators in elementary school, where basic math is an entirely new concept and the subject being taught. Here, the expectation is students learn how to perform the operations themselves through varied exercises, questions to the instructor, and practice.
> It allows much more advanced learning to be done in the long run.
Only if the fundamentals have already been established. Which leads back to my original question: