Are you a science geek or a laboratory technician? Nevertheless, the fascination with sample mixing and outcome products is equally met by all. These appealing and highly skilled experiments and research are assisted by carefully crafted tools. Amongst these is a stirring hotplate.
A stirring hotplate is standard laboratory equipment used for heating vessels like flasks and beakers containing samples under controlled conditions. It allows for simultaneous stirring and heating. Therefore, it increases process speed and assists accuracy.
How does a Stirring Hotplate Work?
The working principle of a stirring hotplate is governed by a rotating electromagnetic field. The process involves immersion of a stir bar in the solution vessel that is then placed upon the stirring hotplate. The stirring hotplate, equipped with controlling knobs, allows for temperature and speed adjustments individually. Once the heating mechanism is turned on, the electromagnetic field builds up and interferes with the stir bar to put into action a homogenous mixing.
Benefits of a Stirring Hotplate
While conducting scientific experiments, the most crucial thing is to ensure safety. Experiments involving corrosive or highly reactive agents are susceptible to split accidents and can cause burns or scars to the experiment conductor. A significant way to nullify such actions is by ensuring even heat distribution. The probability of a constant speed is less dependable in the case of manual stirring. As such, stirring hotplates facilities safety by allowing scientists to maintain safe distances while conducting experiments.
Besides, stirring hotplates contemporarily are available with upgrades like built-in timers and temperature sensors and further simplify the dedicated process of experiment conduction. You can easily find numerous guides to operating hotplates. However, it is critical to ensure that you are qualified enough and are following the due safety guidelines before putting the device into use.
