Restoring Wilted Flowers with Osmosis: The Best Soaking Solution

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SUMMARY

This discussion centers on the principles of osmosis and its applications in restoring wilted flowers and understanding intravenous fluids. It is established that soaking wilted flowers in distilled water is more effective than tap water due to its lower solute concentration, which enhances water absorption through osmosis. The importance of isotonic intravenous fluids is emphasized, as they match the osmotic pressure of human blood, preventing harmful cellular effects associated with hypertonic and hypotonic solutions. Additionally, the detrimental impact of road salt on grass is explained through hypertonicity, where high salt concentration draws water out of plant cells, leading to cell death.

PREREQUISITES
  • Understanding of osmosis and its effects on plant cells
  • Knowledge of isotonic, hypertonic, and hypotonic solutions
  • Familiarity with the physiological role of intravenous fluids
  • Basic concepts of plant biology and cellular functions
NEXT STEPS
  • Research the effects of different solute concentrations on plant health
  • Learn about the physiological implications of intravenous fluid administration
  • Explore the role of osmosis in various biological systems
  • Investigate methods to mitigate the effects of road salt on vegetation
USEFUL FOR

Students in biology, healthcare professionals, horticulturists, and anyone interested in the effects of osmosis on living organisms and their environments.

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Quick Quick Need Help Osmosis!

Hi i need help answering these questions...

You can restore wilted flowers or vegetables by soaking them in water. From your knowledge of osmosis, would it be better to saok them in distilled or tap water?

Explain why it is important for intravenous fluids to be of the same solute concentration as human blood

Road salt taht has been accidentally spilled on grass often kills the grass. Explain why this happens


Please If u know one of the questions very well... Please, try your best in answering the question better.
 
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I will answer the question for you but I will point you on the right track. If you know the key element of osmosis you should be able to answer the question.

Karma said:
You can restore wilted flowers or vegetables by soaking them in water. From your knowledge of osmosis, would it be better to saok them in distilled or tap water?

What is the difference between distilled and tap water? What are removing from the tap water when you distille the tap water?


Karma said:
Explain why it is important for intravenous fluids to be of the same solute concentration as human blood

What happens to cells such as red blood cell that at a physiological solute concentratrion and are then expose to solution that are either over or under the physiological solute concentration.


Karma said:
Road salt taht has been accidentally spilled on grass often kills the grass. Explain why this happens

What happen to 2 solution at different salt concentration that are separated by a semi-permiable membrane (i.e. it only let's water get out). How does it related to cells?
 
I guess you know the basic idea of osmosis: water moves in or out of the cell based on where the concentration of disolved substances is highest, if there is a higher concentration outside the cell water will move out and if there is a higher concentration inside the cell water will move in, if there is the same concentration inside and outside the cell no water will move in or out.

You can answer all your questions with this knowledge, just think about the direction in which water will go in each case.
 
Distilled water is better because it is pure water and does not have the unnecessary minerals like tap water. Distilled water will have the tendency to have a lower concentration than the flower. This will increase the amount of water the flower will absorb through osmosis. Therefore Osmosis will occur faster for distilled water because the low concentration of the distilled water will move into the plant.
The reason why Isotonic is the appropriate choice is because the intravenous fluid has the same osmotic pressure as the human blood. It cannot be hypertonic because the intravenous fluid has more solute, which would mean the movement of the human blood will be towards the hypertonic solution, this would be harmful to the human. Hypotonic solution will not work as well because there would be less solute, so the movement of blood is away from the hypotonic solution. Hypotonic solutions will have a lower number of particles than the blood, Hypertonic solutions have a higher number of particles than the blood, and Isotonic fluids will have the same number as particles as the blood, this will result in a fast fluid balance. Plus when a low solute concentration moves into a high solute concentration, its job is to create equilibrium.


these are my answers can you guys check them... plus i haven't yet gotten the last one... i will try though.
 
Karma said:
The reason why Isotonic is the appropriate choice is because the intravenous fluid has the same osmotic pressure as the human blood. It cannot be hypertonic because the intravenous fluid has more solute, which would mean the movement of the human blood will be towards the hypertonic solution, this would be harmful to the human. Hypotonic solution will not work as well because there would be less solute, so the movement of blood is away from the hypotonic solution. Hypotonic solutions will have a lower number of particles than the blood, Hypertonic solutions have a higher number of particles than the blood, and Isotonic fluids will have the same number as particles as the blood, this will result in a fast fluid balance. Plus when a low solute concentration moves into a high solute concentration, its job is to create equilibrium.

The blood isn't moving towards and away from these solutions.
Think about what would physically happen to the cells in the blood and the rest of your body, if the solution surrounding them became hypotonic (less concentrated with ions) or hypertonic (over concentrated with ions). Suppose you were dehydrated, how would you replenish the fluid in your cells? :rolleyes:
 
Hypertonic--The Cell shrivels
Hypotonic-- The Cell bursts


Am i correct
 
I am sorry, I do not understand The salt problem with the grass, sorrry. Can someone elaborate on this more?
 
Karma said:
Hypertonic--The Cell shrivels
Hypotonic-- The Cell bursts

Am i correct

You are right ! :biggrin:
 
WOW I JUST GOT THE ANSWER, JUST POPPED IN MY HEAD! please tell me if I am rght!

Osmosis also helps destroy and kill grass. Grass just like plants need to take in CO2 and water during photosynthesis. The reason why salt kills grass is because, the grass needs water to be allowed to enter and leave. If the grass’ soil is to salty, than hypertonicity occurs, and the cells will kill the roots of the grass. When the roots have been killed the grass die along with it. So in conclusion grass will shrivel up and die in a soil that is to salty.
 
  • #10
Karma said:
If the grass’ soil is to salty, than hypertonicity occurs, and the cells will kill the roots of the grass.

You are definitely on the right track. :smile: But how did the cells of the roots die?

You've told us where the higher concentration of ions is.. You still are deailing with a fluid (I'll let you figure out where the fluid is. :rolleyes: Hint: it's not in the road salt). So what physically happens to the grass cells? :rolleyes:
 
  • #11
The cells of the roots die because they are not available to the water, so they suffocate.
 
  • #12
suffocate?

The water surrounding the roots has a high concentration of disolved salt, so water will be drawn out of the cells of the grass' roots, as you said yourself:

Karma said:
Hypertonic--The Cell shrivels
 
  • #13
lol sorry that's what i meant to say
 
  • #14
thanks everyone for helping, i appreciate it!
 
  • #15
gerben said:
suffocate?

The water surrounding the roots has a high concentration of disolved salt, so water will be drawn out of the cells of the grass' roots, as you said yourself:

Karma said:
Hypertonic--The Cell shrivels

You gave Karma a lot of latitude on that one gerben :biggrin:
Wasn't she/he referring to intravenous fluid and blood cells in her quote?
 

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