Pipette Tips
Pipette tips are available in a variety of shapes and sizes. Selecting the right tip for your experiments is critical to ensuring accuracy and precision. The wrong tip can contaminate your samples or reagents, ruin the calibration of your pipette, waste precious reagents and even cause physical harm in the form of repetitive stress injuries.
Non-filter, non-barrier or general tips are used when sterility is not important and working with chemicals that do not irritate the lab worker. They are more affordable than other types of tips and are available in different features such as hydrophobic, graduated, filtered or sterile.
Premium quality tips are made from virgin polypropylene and are free of plastic additives that could contaminate your samples. They are also injection molded under strict conditions with precise tolerances to ensure consistent straightness and fit. This allows for a high level of accuracy and precision and minimizes the risk of damage during use. Specialized sterile tips are also available to expedite the loading of agarose or polyacrylamide gels for fast and reliable results.
Filters
Filters are a set of simple 'if this then that' rules that control how data is stored, played back and retrieved. Each filter consists of two things: a trigger and an action. The trigger is a weather scenario and the action is an operation to be performed to your campaign, ad group/ ad set, ad, or line item when that condition occurs. You can use multiple filters with and/ or logic, as well as create new ones using the Add New Filter button in the upper right hand corner of the screen.
Pumps
Pumps apply energy to a fluid in order to raise or transport it. They are commonly rated by horsepower, volumetric flow rate, and outlet pressure in feet (or metres) of head. Choosing the right pump depends on the application and operating conditions. Corrosive fluids require pumps with robust constructions. Pumps for corrosive media need to be explosion proof, and they must be designed with materials that can resist chemical attack.
Dynamic pump types add kinetic energy to the fluid by increasing its speed, which then turns into suction energy. They can handle high viscosities and operate at low pulsation rates. However, they can be damaged by running off their efficiency curve, and they may suffer from cavitation.