YSI 5010 BOD Probe
- Self-stirring probe is powered by Model 5000 or 5100 dissolved oxygen meters
- "Fool-proof" screw-on cap membranes
- Refurbishable electrode system
|050102||5010 BOD probe, self-stirring, 5' cable|
|059880||5906 Teflon black 1.0 mil cap membrane kit, 85, 5905, 5010, 5239, 559 & 2003 polarographic sensors|
|902873Y||MultiLab 4011 BOD probe adapter, connects 5010 BOD probe to MultiLab|
|Usually ships in 3-5 days|
The YSI Model 5010 BOD (Biochemical Oxygen Demand) probe is used with YSI Model 5000 or 5100 meters for measuring dissolved oxygen in all popular size BOD bottles. This probe features self-stirring, easily replaced cap membranes, and a refurbishable electrode system.
The 5010 probe is powered by Model 5000 or 5100 dissolved oxygen meters. It fits BOD bottles with a 5 degree taper/300 mL BOD bottles and uses Model 5906 Cap Membrane kit.
- (1) Self-stirring BOD probe
- (1) 5906 cap membrane kit
- (1) Operations manual
No. The 5010 probe is intended for laboratory use only, and should not be immersed past the tapered stem of the probe.
Yes, the 5010 self-stirring paddle is powered by the 5000/5100 Benchtop DO meter that it is plugged into.
In The News
Jo Latimore’s interest in aquatic ecology dates back to her childhood, spending time at her parents’ North Michigan cabin, exploring the water nearby. Today she is a senior academic specialist, aquatic ecologist, and outreach specialist at Michigan State University in the Department of Fisheries and Wildlife , in her thirteenth year in the position. Latimore’s primary interests include lake appreciation and engagement.
“Most people appreciate our lakes. They like to look at, fish on, and boat on them. However, they don’t necessarily appreciate our lakes as an ecosystem,” Latimore said. “It’s the health of the lakes that lets us use them recreationally.Read More
An early aquatic science pioneer, Luna Leopold, said that “The health of our waters is the principal measure of how we live on the land.” Determining how the land impacts water quality, however, is complex. There must be an understanding of the flow of materials, organisms, and energy within our waters and how they are connected, or even whether they are connected. Enter the emerging field of aquatic systems connectivity.Read More
Lakes are subject to many forces, large and small, from the climate to the presence or lack of individual chemicals and their movements in the lake system. One of the many forces acting on lakes is bacterial action, which is a major player in phosphorus, nitrogen, and carbon cycling in lake systems. These, in turn, influence eutrophication and water quality in lakes.
Trina McMahon, professor of civil and environmental engineering at the University of Wisconsin-Madison , described how bacteria affect cycling of these three major chemical elements in lake systems, and how lake health is impacted.
[caption id="attachment_32773" align="alignnone" width="600"] Measuring water clarity in Lake Mendota.Read More