1970001

Hach TenSette Pipets

Hach TenSette Pipets

Description

The Hach TenSette Pipet is a precision device for dispensing small quantities of liquids. Rugged construction and precision manufacturing ensure prolonged use and dependability with a minimum of service.

Features

  • Dispense small quantities of liquids with precision
  • Saves time, reduces glassware cleanup, and assures accuracy
  • Perform routine laboratory pipetting quickly, economically, and accurately
Free Shipping on this product
Your Price
$292.00
Usually ships in 3-5 days

Shipping Information
Return Policy
Why Buy From Fondriest?

Details

The Hach TenSette Pipet is a precision device for dispensing small quantities of liquids. Rugged construction and precision manufacturing ensure prolonged use and dependability with a minimum of service. Ten separate volumes can be selected simply by dialing the desired setting.

 

Non-wettable polyethylene pipet tips ensure quantitative transfer of aqueous solutions. For best results, always use a new tip for each pipetting operation. After being used several times, the pipet tip may retain some liquid, causing an error in delivery.

Image Part # Product Description Price Stock Order
Hach TenSette Pipets 1970001 TenSette pipet with 100 tips, 0.1mL to 1.0mL
$292.00
Usually ships in 3-5 days
Hach TenSette Pipets 1970010 TenSette pipet with 50 tips, 1.0mL to 10.0mL
$292.00
Usually ships in 3-5 days
Image Part # Product Description Price Stock Order
Hach Non-Sterile Pipet Tips 2185696 Non-sterile pipet tips for TenSette Pipet 1970001, 0.1mL to 1.0mL, 50 pack
$14.35
Usually ships in 3-5 days
Hach Non-Sterile Pipet Tips 2199796 Non-sterile pipet tips for TenSette Pipet 1970010, 1.0mL to 10.0mL, 50 pack
$12.35
Usually ships in 3-5 days
Hach Sterile Pipet Tips 2558996 Sterile pipet tips for TenSette Pipet 1970010 (individually wrapped), 1.0mL to 10.0mL, 50 pack
$80.55
Usually ships in 3-5 days

Related Products

In The News

Monitoring for Biodiversity with 1st Commercial eDNA Service in the UK

Surveying waterways for defining habitats and ranges may soon be much quicker and easier thanks to the applied use of environmental DNA (eDNA). Traditional studies have relied upon the slow, difficult, and somewhat haphazard process of catching fauna in the field using any number of techniques. This is even more difficult than usual when the target of the study is an endangered animal. A new company NatureMetrics , which spun-out from the University of East Anglia (UEA) , is taking on this challenge with its eDNA tech. “We were founded to work on developing high-throughput ways of measuring biodiversity, and environmental DNA is one element of that,” Dr. Kat Bruce , the director of NatureMetrics, remarks to EM.

Read More

Eel Excitement: At Hudson River NERR, Environmental Monitoring Takes A Slippery Turn

“I remember how I first became fascinated with eels,” says Chris Bowser, Education Coordinator for the Hudson River National Estuarine Research Reserve (HRNERR) and Hudson River Estuary Program (HREP) of the New York State Department of Environmental Conservation, in partnership with Cornell University’s NYS Water Resource Institute . “I was doing a talk on a ship called the Clearwater. There was a trawl net catch on the deck and I picked up one of the things in the catch. It was a piece of trash, a plastic toy truck with barnacles growing on it. I was speaking to the audience and they seemed really riveted! I was thinking, ‘I must be giving a really good talk.

Read More

Washington Leading on Water Quality with New Winery Permit

In 2014, the Department of Ecology (DOE) in the State of Washington began to work on water quality standards related to wineries in the Yakima Valley and the rest of the state. The specific concern is the handling of wastewater from winemaking; this kind of wastewater is toxic. Water into wine, and waste Winery wastewater is high in sugar and filled with suspended solids such as grape plant matter and juice. Microbes can digest those solids, but only if there's enough oxygen in the water. In wastewater from winemaking, there isn't enough oxygen for those microbes—biochemical oxygen demand (BOD) far exceeds supply. Consider this. To use the wastewater for irrigation , BOD must be below 50 .

Read More