The stomata (or singular, stoma) diffuse carbon dioxide and oxygen through the plant, taking in CO2 and producing O2 for us the breathe.
I'm assuming this is from a diffusion lab? I did one a little while back, which may or may not be the same. However, we found that the baggie was more concentrated in starch and the beaker was more concentrated in iodine.
Answer:
Liquid equivalent to "cytoplasm" and the particles equivalent to "organelles".
Explanation:
While comparing a liquid salad dressing to a cell, the liquid will be equivalent to "cytoplasm" because cytoplasm is a thick solution present in each cell that made up of water, salts, and proteins.
The particles would be equivalent to "organelles" because as particles float in liquid salad adding flavours to the salad likewise organelles are present in a cell floating in the cytoplasm that performs a specific function.
Hence, the correct answer is " liquid will be equivalent to "cytoplasm" and the particles will be equal to "organelles".
Answer:
Plants take in CO2 from the atmosphere in order to produce energy in the form of sugar via photosynthesis using sunlight. Stage three: Carbon transfer from organism to organism. Carbon enters the atmosphere through respiration (animals or decomposers) and combustion (fossil fuels, wood).
Explanation:
hope this helps :)
The particles are predominantly very fine-grained sulfide minerals formed when the hot hydrothermal<span>fluids mix with near-freezing seawater. ... The cold seawater is </span>heated<span> by </span>hot<span> magma and reemerges to form the </span>vents<span>. Seawater in </span>hydrothermal vents<span> may reach temperatures of over 700° Fahrenheit </span>