![A straw 6 cm long floats on water. The water film on one side has surface tension of 50 dyn/cm . On the other slide, camphor reduces the surface tension to 40 A straw 6 cm long floats on water. The water film on one side has surface tension of 50 dyn/cm . On the other slide, camphor reduces the surface tension to 40](https://d2rrqu68q7r435.cloudfront.net/images/2691448/32dadc06-bc0e-4ebb-a035-b91d34d603de.jpg)
A straw 6 cm long floats on water. The water film on one side has surface tension of 50 dyn/cm . On the other slide, camphor reduces the surface tension to 40
![ACCU DYNE TEST ™ Surface Tension Test Fluids formulated per ASTM Standard D2578 and ISO 8296 from 100% reagent grade materials ACCU DYNE TEST ™ Surface Tension Test Fluids formulated per ASTM Standard D2578 and ISO 8296 from 100% reagent grade materials](https://www.accudynetest.com/images/fluids_box.jpg)
ACCU DYNE TEST ™ Surface Tension Test Fluids formulated per ASTM Standard D2578 and ISO 8296 from 100% reagent grade materials
![Dyne.org, RIDDLE&CODE and InfoCert's Consortium Appointed to Take EBSI to the Next Level | Business Wire Dyne.org, RIDDLE&CODE and InfoCert's Consortium Appointed to Take EBSI to the Next Level | Business Wire](https://mms.businesswire.com/media/20210921005128/en/907750/22/RIDDLE%26CODE_MAINLOGO_POS.jpg)
Dyne.org, RIDDLE&CODE and InfoCert's Consortium Appointed to Take EBSI to the Next Level | Business Wire
![ACCU DYNE TEST ™ Surface Tension Test Fluids formulated per ASTM Standard D2578 and ISO 8296 from 100% reagent grade materials ACCU DYNE TEST ™ Surface Tension Test Fluids formulated per ASTM Standard D2578 and ISO 8296 from 100% reagent grade materials](https://www.accudynetest.com/images/fluids_bottles.jpg)
ACCU DYNE TEST ™ Surface Tension Test Fluids formulated per ASTM Standard D2578 and ISO 8296 from 100% reagent grade materials
![Atmospheric pressure in SI units can be written as 1.01325 × 10^5 N/m^2 .Using the concept of dimensional analysis its value in CGS unit will be expressed as Atmospheric pressure in SI units can be written as 1.01325 × 10^5 N/m^2 .Using the concept of dimensional analysis its value in CGS unit will be expressed as](https://d2rrqu68q7r435.cloudfront.net/images/7900069/ec2972bf-2298-4274-bdbd-dc4220da969c.jpg)