How can you produce for Nitric Oxide

Health related question in topics Chemistry .We found some answers as below for this question “How can you produce for Nitric Oxide”,you can compare them.

The best way to produce and increase Nitric Oxide levels in body: Take a daily multivitamin. Research implies that Vitamins C & E may help protect nitric oxide levels, relax blood vessels & maintain healthy blood pressure levels. Also, exercise! [ Source: http://www.chacha.com/question/how-can-you-produce-for-nitric-oxide ]
More Answers to “How can you produce for Nitric Oxide
How can you produce for Nitric Oxide
http://www.chacha.com/question/how-can-you-produce-for-nitric-oxide
The best way to produce and increase Nitric Oxide levels in body: Take a daily multivitamin. Research implies that Vitamins C & E may help protect nitric oxide levels, relax blood vessels & maintain healthy blood pressure levels. Al…
What is L-Arginine? (Nitric Oxide Production)
http://arginineornithine.com/home-family/what-is-l-arginine-nitric-oxide-production/
Most people with a healthy liver and intestines all Arginase enzyme in their system. And ‘this enzyme that degrades L-arginine. When L-arginine is degraded, almost half are exhausted when extra passes through the intestine and the liver and…
Do these units produce nitric oxide?
http://www.healthyair2000.com/faq.html#nitric%20oxide
Since Biozone units use UV light to produce ozone, and not the corona discharge method, no nitric oxides or contingent substances are produced.

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What do you think about this article on Blood Stem Cells?
Q: here is the articleBlood stem cells grow with the flow, two new studies show.The studies, led by independent groups at Children’s Hospital Boston, report that an embryo’s heartbeat and blood circulation stimulate the growth of blood stem cells.The discovery could be a boon to researchers seeking to make blood stem cells for people with blood cancers, immune system disorders and other diseases that require bone marrow transplants. In children and adults, blood stem cells reside in the bone marrow. Only about a third of patients who require bone marrow transplants have matching donors.“Basically we cannot offer optimal therapy to two-thirds of patients,” says Leonard Zon, director of the Stem Cell Program at Children’s Hospital Boston, and a coauthor of one of the new studies, which appears online May 13 and in the May 15 Cell.Scientists can make red and white blood cells easily in the laboratory, but bone marrow patients need blood stem cells to constantly replenish their blood supply. Producing these cells, also called hematopoietic stem cells, is much more difficult, Zon says.Now, his group suggests that a little force can boost blood stem cell production in zebrafish embryos. Reporting online May 13 in Nature, a group led by George Daley, director of the Pediatric Stem Cell Transplantation Program at Children’s Hospital Boston, demonstrates that blood flow also triggers hematopoietic stem cell production in mouse embryos. Both groups found nitric oxide plays an important role.Daley’s group directly tested the ability of blood flow to turn cells into hematopoietic stem cells. The team placed mouse embryonic stem cells in a centrifuge-like device that mimics sheer stress — the frictional force blood creates when it flows over cells — in a mouse’s aorta. In early embryos, blood stem cells first form on the floor of the aorta. Later in development, they migrate to the bone marrow.Embryonic stem cells exposed to the same magnitude of sheer stress as found in the mouse aorta produced hematopoietic stem cells. Cells that were exposed to a different magnitude of sheer stress, such as that in the human aorta, did not. A nitric oxide–blocking drug reduced the number of blood stem cells induced by the sheer stress. Nitric oxide is a chemical produced naturally in the body and is known to be important in regulating blood vessel growth and elasticity.When the researchers gave the nitric oxide–blocker to pregnant mice, their embryos also had problems making blood stem cells.Zon’s team used zebrafish embryos, which are transparent, to watch the stem cells develop. He and his colleagues found that chemicals that increase blood flow in the tails of zebrafish embryos also boost activity of RUNX1, a master regulator of blood stem cells. Mutant embryos that don’t have a heartbeat because of a defect in a heart muscle protein don’t make hematopoietic stem cells in their tails.When the researchers gave a nitric oxide compound to the mutant embryos, however, the embryos produced more blood stem cells. The nitric oxide–blocker also inhibited blood stem cell production, the researchers found. Those findings suggest that blood flow may increase nitric oxide levels, which then boost stem cell production, Zon says.Intuitively, scientists might expect that mechanical forces play a role in shaping development, but few biologists have studied this due to experimental difficulties, says Ihor Lemischka, a stem cell biologist at Mount Sinai School of Medicine in New York City.“I think we’ll be seeing more of these types of studies,” Lemischka says.It’s still not clear how the cells sense sheer stress, and researchers are trying to unravel the chain of events between mechanical force and stem cell production in order to manipulate the process to make blood stem cells for transplant.
A: Interesting. I didnt follow all of it, but I understand basically what its saying. I have had a bone marrow transplant. Well, cord blood actually. I had no matching donors in the registry, so i participated in the adult dual cord blood transplant trials. My donors were a perfect match to each other, but mismatched to me.If this technology shows results, it can help so many more people get the treatment they need.
can someone help me with this chemistry?
Q: Sodium reacts with oxygen to produce sodium oxide.4Na(s)+O2(g)——>2Na2O(s)If you have 14.0 g Na, how many grams of O2 are required for reactionhow many grams of O2 are needed in a reation that produces 75.0 g Na2O—————————————————————————————————–Aluminum reacts with oxygen to produce aluminum oxide.4Al(s)+3O2(g)—>2Al2O3(s)the reaction of 52.0 g aluminum and sufficient oxygen has a 65.o% yield. how many grams of aluminum oxide are produced?——————————————————————————————————At a winery, glucose (C6H12O6) in grapes undergoes fermentation to produce ethanol (C2H12O6) and car bon dioxideC6H12O6—–>2Ch2H6O+ 2CO2glucose ethanolhow many moles of glucose are required to form 121 g of ethanol?how many grams of ethanol would be formed from the reation of 0.250 kg of glucose?——————————————————————————————————When nitrogen dioxide (NO2) from car exhaust combines with water in the air it forms nitric acid (HNO3), which causes acid rain, and nitrogen monoxide.3NO2(g)+ H2O(L)—–>2HNO3(aq)+ NO(g)How many molecules of NO2 are needed to react with 0.250 mole H2Ohow many grams of HNO3 are produced when 60.0g NO2 completely reacts?—————————————————————————————————–
A: moles Na = 14.0 / 22.9898 g/mol=0.609moles O2 = 0.609/4 =0.152mass O2 = 0.152 x 32 g/mol=4.87 gmoles Na2O = 75.0 g / 61.9786 g/mol=1.21moles O2 = 1.21 / 2=0.605mass O2 = 0.605 x 32 g/mol=19.4 gmoles Al = 52.0 / 26.9815 g/mol=1.93theoretical moles Al2O3 = 1.93x 2 / 4 =0.964actual moles Al2O3 = 0.964 x 65/100= 0.626mass Al2O3 = 0.626 x 101.96 g/mol=63.8 g
Help me with the math on my Chemistry homework?
Q: So for the up coming final my teacher gave us a review sheet and told us to get to it. Unfortunately she never gave us anything to tells us what the answers are or how to do them. So if you could please answer these questions and show you work that would be great. You don’t have to answer them all (though that would be great) just answer one if you can and that would be greatly appreciated.For the reaction represented by the equation 2KlO3 ® 2KCl + 3O2, how many moles of potassium chlorate are required to produce 250. g of oxygen?For the reaction represented by the equation Cl2 + 2KBr ® 2KCl + Br2, how many grams of potassium chloride can be produced from 300. g each of chlorine and potassium bromide? For the reaction represented by the equation 3Fe + 4H2O ® Fe3O4 + 4H2, how many moles of iron(III) oxide are produced from 500. g of iron in an excess of H2O?For the reaction represented by the equation 2HNO3 + Mg(OH)2 ® Mg(NO3)2 + 2H2O, how many grams of magnesium nitrate are produced from 8.00 mol of nitric acid, HNO3, and an excess of Mg(OH)2? Ozone, O3, is produced by the reaction represented by the following equation: NO2 + O2 -> NO + O3What mass of ozone will form from the reaction of 2.0 g of NO2 in a car’s exhaust and excess oxygen?If the measurements for the answers could be in mols that would be great. Thanks a lot
A: Your second question has the most involved answer that should cover how to do all the others as well.For the reaction represented by the equation Cl2 + 2KBr ® 2KCl + Br2, how many grams of potassium chloride can be produced from 300. g each of chlorine and potassium bromide? First check the equation is balancedCl2 + 2KBr —–> 2KCl + Br2Then convert to moles, always work in molesmoles = mass / molar massmolar mass Cl2 = 70.90 g/molmoles Cl2 = 300. g / 70.90 g/mol= 4.231 mol Cl2molar mass KBr = 119.0 g/molmoles KBr = 300. g / 119.0 g/mol= 2.521 molesNow determine the limiting and excess reagent. The limiting reagent is the reagent that will be all used up if the reaction goes to completion. There is not enough limiting reagent to use up all of the other reagent, the excess reagent.The balanced equation tells you that1 mol Cl2 needs 2 moles KBr to fully reactSO 4.231 moles of Cl2 needs (2 x 4.231) moles KBr= 8.462 moles KBrSo to react all the Cl2 you would need 8.462 moles of KBr. But you only have 2.521 moles of KBr, which is not enough. So KBr is the limiting reagent. Cl2 is in excess.The maximum amount of product you can acheive is if all the limiting reagent reacts. So the maximum amount of KCl you can get is from complete reaction of 2.521 moles of KBrThe balanced equation tells you that2 moles KBr reacts to give 2 moles of KClwhich is a 1:1 ratioTherefore 2.521 moles KBr produces 2.521 moles of KClmass = molar mass x molesmolar mass KCl = 74.6 g/molmass KCl = 2.521 mol x 74.6 g/mol= 188 g KCl (3 sig figs)For the first questionwork out how many moles of O2 you produced. Then work out how many moles of KIO3 you must have started with in order to get this much O2moles O2 = mass / molar mass = 250. g / 32.00 g/mol= 7.8125 moles O2 formedThe balanced equation tells you that3 moles O2 are produced from 2 moles KIO3So 1 mol O2 will form from 2/3 moles KIO3Thus 7.8125 moles O2 forms from (2/3 x 7.8125) moles KIO3= 5.21 moles KIO3 (3 sig figs)For the 3rd questionYou are told Mg(OH)2 is the excess reagent, so Fe2O3 is the limiting reagent, use same method as I used for the 2nd quuestionThe rest are similar.Hope this helps.
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