Introduction
Selecting educational microscopes is not an easy task for teachers. These microscopes must stand up to daily student use, be constantly up and running, and often fit strict budget requirements. Especially with student microscopes, practical aspects can play a significant role. Thus, their size, weight, cabling, and design are important for their daily use, and these factors should be taken into account before considering the purchase of microscopes and their accessories. If chosen carefully, educational microscopes can open windows to a cosmos of minute detail that can delight young minds in schools and universities and fascinate them enough so that they consider a career in science. This article describes various factors to consider when selecting microscopes for educational settings.
Classroom Environment
From our experience, there are two types of classrooms. The first is the laboratory. Microscopes are set up once and remain at the same place all the time (Figure 1). There may be long rows of tables, often with little space between the rows. In this case, fewer cables around the microscope will create a better workspace. Microscopes could become dislodged if students’ arms or bags get caught in cables when they take their seats.
The second type of classroom has storage space for microscopes (Figure 2). The microscopes are taken out of storage, set up on the worktops at the beginning of class, and put away again at the end. In this case, there are several factors to consider.
Size
Do the microscopes fit the storage space? There should be enough space between the instruments and perhaps dividers, so that they do not touch. It also makes sense to check that moveable parts are separated enough so that they are not easily damaged.
Weight
Because the microscopes are moved for every lesson, they should be easy for one person to carry. Also take a look at the design. It may be challenging to grasp a microscope securely if it does not have a handle.
Cables
If cables hang down from the microscopes, they can tangle in storage as well as on the way to the benches. Imagine thirty students carrying microscopes and dragging the plugs behind them on the floor, creating tripping hazards.
For both labs and classrooms with storage capacity, the environmental conditions are worth considering. If temperatures and humidity in the rooms change, specific coatings for microscope parts may prevent the growth of fungus and bacteria.
Microscope Construction
Student microscopes go through many hands every day. Since they will be used for many years, they should be constructed to last. Thus, the design and construction should be examined carefully.
Maintenance
Servicing the microscopes must be easy. Educational microscopes must be easy to clean and maintain. When needed, an on-site service call should be available.
Robustness
Microscopes should not be delicate in construction. Their bases should be planted firmly on the top of the workspace. They also should be well balanced and not wobble. In addition, they should have as few removable parts as possible to ensure the next student still has all the microscope parts at his or her disposal.
Durability
It's worth taking a look at the materials the microscopes are manufactured from. The longer microscopes show little wear and tear, the longer students will treat them with more care. Another scratch on a scratched surface matters less than the first scratch. A durable finish can be helpful.
Smoothness
Moveable parts should move smoothly without requiring force.
Labeling
Well-labeled microscope parts help students handle the microscopes properly as well as locate and use with confidence the few movable parts.
Having Fun Learning and Teaching
Students learn best if they have fun doing so. Microscopy classes have great potential to fascinate children and young adults because the world they see through the oculars is very different from what they see around them. Discovering this microcosm is an adventure. Two factors are crucial in promoting the fun factor:
Usability
With only a few adjustments to the microscope, students must be able to see something. This step is important, so that they will remain engaged and teachers will spend less time helping students adjust their instruments. Good labeling and few removable parts make these instruments easy to use.
Great images
The overall optical performance, including the camera, is key to producing images with good contrast, resolution, and color. Good image quality enables students to discover a new world and stay interested.
Microscope Performance and Accessories
The choice of microscope also depends on the subject matter and level of the course. In many cases appropriate accessories are needed to perform certain experiments. Microscopes can be equipped to match the requirements of the subject under study.
Accessories
Some accessories depend on the application, for example polarization kits are important for the study of minerals in geology classes. Other accessories can be generally beneficial, for example LED illumination, which lasts much longer than halogen bulbs. The long lifetime of LED lighting eliminates bulb changes and increases microscope uptime. Digital cameras and associated software have become more important in the past few years, as microscopy itself has become more digital. Some cameras can even create their own Wi-Fi hotspot so that students can access images with their mobile devices or laptops (Figures 3).
Course level
Microscopes for biology classes in high school do not need the same capabilities as microscopes for advanced university pathology courses. There are different types of student microscope that can usually match the needs of students (Figure 4) [Reference Müller1].
Budget
The price-performance ratio always requires careful consideration. In the years we have spent talking to teachers, we have learned that nothing is more frustrating for students than lousy images that don't mean anything. For a teacher, nothing is more rewarding than seeing students excited about what they see in the microscope. Therefore, our advice is the following: never compromise on the optical performance. Only great images delight young minds.
Summary
Answers to the following questions will help you select the microscope that best fits your needs:
1. Where will the microscopes be used and stored? Will they be moved often?
2. How sturdy are the instruments? Will they stand up to daily use? Do the moveable parts move easily for a good user experience?
3. How easily can the microscopes be operated? Will students see something fascinating quickly? This effect should not be underestimated: the easier great images can be seen, the more fun the students will have.
4. For which lessons will the microscope be used? Is any special equipment needed? Which equipment will not be needed?
Acknowledgments
I would like to thank James DeRose of Leica Microsystems for help with preparing the manuscript.