![The surface tension of a liquid in `CGS` system is `45` dyne `cm^(-1)`. Its value in `SI` system is - YouTube The surface tension of a liquid in `CGS` system is `45` dyne `cm^(-1)`. Its value in `SI` system is - YouTube](https://i.ytimg.com/vi/dP_YlEljKkI/maxresdefault.jpg)
The surface tension of a liquid in `CGS` system is `45` dyne `cm^(-1)`. Its value in `SI` system is - YouTube
![Convert the folowing (a) 5 dyne/cm^2 into N/m^2 (b) 10 g/cm^3 into Kg/m^3 - Physics - Units And Measurements - 12979011 | Meritnation.com Convert the folowing (a) 5 dyne/cm^2 into N/m^2 (b) 10 g/cm^3 into Kg/m^3 - Physics - Units And Measurements - 12979011 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/content_ck_images/ck_5b742d0f6b216.png)
Convert the folowing (a) 5 dyne/cm^2 into N/m^2 (b) 10 g/cm^3 into Kg/m^3 - Physics - Units And Measurements - 12979011 | Meritnation.com
![the value of surface tension of water in c. g. s system in 72 dyne/cm convert it into si system - Brainly.in the value of surface tension of water in c. g. s system in 72 dyne/cm convert it into si system - Brainly.in](https://hi-static.z-dn.net/files/d65/7506490cdaa1d5155f36ec3e8f936ada.jpg)
the value of surface tension of water in c. g. s system in 72 dyne/cm convert it into si system - Brainly.in
![c. Strong drop ejection at 166x10 5 dyne/cm (1.66x10 4 N/m) with sudden... | Download Scientific Diagram c. Strong drop ejection at 166x10 5 dyne/cm (1.66x10 4 N/m) with sudden... | Download Scientific Diagram](https://www.researchgate.net/profile/Paul-Galambos/publication/268372703/figure/fig3/AS:295404185899010@1447441254390/c-Strong-drop-ejection-at-166x10-5-dyne-cm-166x10-4-N-m-with-sudden-reversal-of-force_Q640.jpg)
c. Strong drop ejection at 166x10 5 dyne/cm (1.66x10 4 N/m) with sudden... | Download Scientific Diagram
![A steel wire of length 1.5m has density 8.8 x 10 ^3 kg/m ^3 and Young's modulus 2.2 x 10 ^11 N/m ^2 . It is subjected to a tension which produces an elastic strain of 1 A steel wire of length 1.5m has density 8.8 x 10 ^3 kg/m ^3 and Young's modulus 2.2 x 10 ^11 N/m ^2 . It is subjected to a tension which produces an elastic strain of 1](https://dwes9vv9u0550.cloudfront.net/images/3884735/530440a4-c2a0-4f59-866c-3b5ab590a20c.jpg)