The average science classroom needs a variety of tools to increase their ability to study interesting lessons. One tool that few may have considered is piezo stages and nanoscience microscopes. However, these can offer many unique benefits that can't be earned in any other way.
What Is Nanoscience?
Nanoscience is the study of the atomic world. Essentially, it uses electron microscopes and other advanced tools to gauge how atoms move and interact with each other. No microscope is strong enough to truly see these atoms, however, so their movement is gauged by the use of powerful scanners. In the past, these types of microscopes were too expensive for the classroom.
However, decreasing prices on these microscopes have made them more useful for the average science class. As a result, it is possible to invest in these items and give students a fun look at nanoscience. But how can this actually benefit their educational experience?
How Nanoscience Can Benefit A Classroom
There are many different ways that nanoscience can benefit a classroom. Just a few of the most popular and useful include the following:
- Engages the students with incredible technology
- Draws their mind into a fun and interesting science
- Helps showcase the unique movement of atoms
- Provides an inside look at how real scientists work
- Prepares gifted children for a potential career as scientists
Obviously, a classroom nanoscience microscope may lack some of the raw power of one used for a real scientific study. That doesn't matter too much, as they will still provide plenty of great benefits. This is especially true if teachers can find one that uses a piezo stage for improved precision and scanning accuracy.
Using A Piezo Stage
Piezo stages are small, mechanical devices that are used in a variety of nanoscience microscopes. They are designed to create an increased amount of movement precision. This level of precision is vital in nanoscience, as it can be very difficult to identify items on an atomic level.
Most nanoscience microscopes will already have these stages, but it is important for a science teacher and their class to understand how to control them. Typically, a piezo stage is controlled using a three-phase movement method:
- Programming precision movement with the included software
- Using the controller to adjust these movements
- Letting the nanopositioner adjust the focus of the nanoscience microscope
This process is one that can be somewhat complicated to master, requiring teachers to spend time with their student and the microscope. Reading the full manual is probably a good idea, as it is possible to learn more precise movements and specific programming tips.
When a teacher and their class finally masters the use of piezo stages and nanoscience scanning, they can get an incredible insight into the movement of atoms. Being able to gauge the movement of electrons and neutrons will convert the biggest cynic into a science lover.