Podcast
Questions and Answers
What is the typical degree increment that digital protractors can read?
What is the typical degree increment that digital protractors can read?
- 10 degrees
- 0.01 degrees (correct)
- 0.1 degrees
- 1 degree
How accurate are digital protractors typically?
How accurate are digital protractors typically?
- 1%
- 100%
- 0.1% (correct)
- 10%
What feature makes digital protractors suitable for applications where precision and budget are important?
What feature makes digital protractors suitable for applications where precision and budget are important?
- High battery consumption
- Large size
- Ability to read in 0.01 degrees (correct)
- Complex design
What is a common advantage of digital protractors compared to traditional ones in terms of battery replacement?
What is a common advantage of digital protractors compared to traditional ones in terms of battery replacement?
How can digital protractors be secured to workpieces?
How can digital protractors be secured to workpieces?
What is the typical degree increment that some digital protractors can read?
What is the typical degree increment that some digital protractors can read?
How can digital protractors be attached to workpieces?
How can digital protractors be attached to workpieces?
What is the level of accuracy, typically, for digital protractors in percentage terms?
What is the level of accuracy, typically, for digital protractors in percentage terms?
What is a key feature of digital protractors that makes them ideal for applications where accuracy and budget are important?
What is a key feature of digital protractors that makes them ideal for applications where accuracy and budget are important?
What is a notable advantage of digital protractors concerning battery replacement?
What is a notable advantage of digital protractors concerning battery replacement?
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