the absorption of water by roots

the evaporation of water from aerial parts of plants

the movement of water from roots to leaves

the transport of water through the xylem

it decreases the water potential gradient between the leaf and atmosphere

it increases the humidity inside the leaf

it prevents water loss from the leaf

it provides a pathway for water loss through the open stomata

it causes stomata to open for maximum CO₂ absorption, increasing the transpiration rate

it causes stomata to close, decreasing the transpiration rate

it increases the humidity inside the leaf, decreasing the transpiration rate

it has no effect on the transpiration rate

it becomes slower due to lower kinetic energy

it remains unchanged

it becomes faster due to higher kinetic energy

it stops completely

to measure the rate of transpiration

to measure the rate of photosynthesis

to measure the rate of respiration

to measure the rate of water uptake by roots

to remove any impurities from the shoot

to make the shoot more flexible

to increase the surface area for water uptake

to prevent air from entering the xylem

to maintain an airtight system

to measure the volume of water lost

to allow air to enter the tube

to prevent water from being taken up from the tube

keep the leaves wet

change multiple variables at once

remove the shoot from the potometer

give the shoot time to acclimatise

it remains in the air spaces of the leaf

it moves down a water potential gradient from the atmosphere into the leaf

it moves up a water potential gradient from the air spaces in the leaf into the atmosphere

it moves down a water potential gradient from the air spaces in the leaf into the atmosphere

low humidity decreases the water vapour gradient

high humidity decreases the water vapour gradient

humidity has no effect on the water vapour gradient

high humidity increases the water vapour gradient