houses, hospitals, flats and me
plant cell
You could expect to see a condensation and a whirling cloud of dust and debris. Trees and structures will be damaged or torn apart.
If the solute concentration outside the paramecium matched that inside, the surrounding environment would become isotonic to the paramecium's internal environment. In this scenario, there would be no net movement of water into or out of the paramecium, preventing any osmotic stress. The paramecium would maintain its shape and volume, as the balance of osmotic pressure would stabilize its internal conditions.
You can expect to find high surface pressures at the poles because they have all of the cold air sinking down to the surface due to the low intensity of insolation on the poles.
If the liquid surface tension is less than or equal to the critical surface tension of a surface, you would expect the liquid to spread out and wet the surface. This is because the liquid will be able to overcome the cohesive forces holding it together and adhere to the surface.
Paramecium uses cilia, which are like tiny hairs all around the organism, to pull itself through water. Sometimes, not all the cilia move in the same direction, so the cell spirals as it pulls itself through the water.
A paramecium is best viewed under a microscope due to its transparent body, allowing for more detailed observation of its structure and movements. Earthworms and grasshoppers have more complex internal structures that may require specialized microscopy techniques for better visualization.
A scanning electron microscope (SEM) would be used to observe structures on the surface of an individual cell. SEM uses a focused beam of electrons to scan the surface of a sample, producing high-resolution images of the surface features of the cell.
guts
These are fresh water protists. Lakes, streams and ponds would harbor paramecium and amoebae.
The paramecium would have difficulty regulating its water balance, leading to swelling and potential bursting from an influx of water. Without a contractile vacuole, the paramecium would struggle to expel excess water and maintain osmotic balance, ultimately leading to cell damage or death.
a cell from an oak tree (: