By trapping a layer of water vapour around the stomata you are increasing the concentration of water vapour outsider and inside the stomata . Therefore, water vapour is high inside and outside of the stomata therefore decrease in the water vapour gradient. I hope this helps👍
Underrated channel
thanks for the support; please share with your classmates 🥰
@@clarebiology2858 already did 😂 exams next week 😢
@@joshola353thank you and good luck!!!🍀🤞
You absolute legend ! Thanks so much miss
I was your 101th like 😁
Thanks miss!! Do you have any predictions for the contents that will be assessed in papers 1+2 this year?:)
i posted some tonight, I'll try and post more over the next few days too
@@clarebiology2858 thank you so much! that’s extremely helpful ☺️
@@clarebiology2858hey sorry where were these posted?
I’ve just put it on the community page
can you please finish evoloution / classification
hi miss when you say reducing the water vapour gradient, was the water vapour potential outside stomata lower than the water vapour inside??
By trapping a layer of water vapour around the stomata you are increasing the concentration of water vapour outsider and inside the stomata . Therefore, water vapour is high inside and outside of the stomata therefore decrease in the water vapour gradient. I hope this helps👍
@@clarebiology2858 Miss does that mean there is a type of no overall net movement?
@@iqrainstitution4365 @clarebiology2858 pls reply to this comment!
@@iqrainstitution4365unless they have the exact same water vapour potential then no, there will be net movement it just won’t be as fast