There is no such thing as an F8 tornado or Category 8 hurricane in reality.
However, the Fujita scale does have theoretical categories up to F12, so that the scale connects the Beaufort wind scale and mach number.
We cannot get a size out of this supposed category as although strong tornadoes tend to be larger, size is not a factor in rating.
F8 wind estimates on this theoretical portion of the scale range from 446 mph to 513 mph.
However, the Fujita scale is based on damage, the wind speeds are only estimates for each damage level. Since F5 damage is total destruction, no tornado can be rated higher than F5.
As to hurricanes, any wind higher than 156 mph is category 5, no matter how high. So we cannot have a category 8.
Hemophilia is most often caused by mutations in the F8 gene, located on the X chromosome. This gene provides instructions for making a protein called factor VIII, which is essential for blood clotting. Mutations in the F8 gene can result in reduced or absent levels of factor VIII, leading to the characteristic bleeding problems seen in hemophilia.
Yes, hemophilia A is a sex-linked recessive genetic disorder caused by a mutation in the F8 gene on the X chromosome. It primarily affects males, who inherit the defective gene from their mothers. Females can be carriers of the gene and may pass it on to their children.
Mutations in the F8 and F9 genes cause hemophilia. Changes in the F8 gene are responsible for hemophilia A, while mutations in the F9 gene cause hemophilia B. The F8 gene provides instructions for making a protein called coagulation factor VIII. A related protein, coagulation factor IX, is produced from the F9 gene. Coagulation factors are proteins that work together in the clotting process. After an injury, blood clots protect the body by sealing off damaged blood vessels and preventing further blood loss. Mutations in the F8 or F9 gene lead to the production of an abnormal version of coagulation factor VIII or coagulation factor IX. The altered protein cannot participate effectively in the blood clotting process and, in some cases, the protein does not work at all. A shortage of either protein prevents clots from forming properly in response to injury. These problems with blood clotting lead to excessive bleeding that can be difficult to control. Some mutations almost completely eliminate the activity of coagulation factor VIII or coagulation factor IX, resulting in severe hemophilia. Other mutations reduce but do not eliminate the activity of one of these proteins, which usually causes mild or moderate hemophilia. The other, rare form of this condition, acquired hemophilia, results when the body makes specialized proteins called autoantibodies that attack and disable coagulation factor VIII. The production of autoantibodies is sometimes associated with pregnancy, immune system disorders, cancer, or allergic reactions to certain drugs. In about half of cases, the cause of acquired hemophilia is unknown. Read more about the F8 and F9 genes. Hemophilia A and hemophilia B are inherited in an X-linked recessive pattern. A condition is considered X-linked if the mutated gene that causes the disorder is located on the X chromosome, one of the two sex chromosomes. In males (who have only one X chromosome), one altered copy of the gene in each cell is sufficient to cause the condition. In females (who have two X chromosomes), a mutation must be present in both copies of the gene to cause the disorder. Males are affected by X-linked recessive disorders much more frequently than females. A striking characteristic of X-linked inheritance is that fathers cannot pass X-linked traits to their sons. In X-linked recessive inheritance, a female with one altered copy of the gene in each cell is called a carrier. She can pass on the altered gene to her children, but usually does not experience signs and symptoms of the disorder. In about 10 percent of cases, however, females who carry one altered copy of the F8 or F9 gene will experience mild problems with bleeding. From: http://ghr.nlm.nih.gov/condition=hemophilia
There are several different mutations that can cause hemophilia and there is no typical answer to this question. There are different segments of code on the X chromosome that is responsible for enabling production of Factors VIII & IX. A mutation anywhere within these areas can be responsible for hemophilia. The type of mutation as well as the location of the mutation in that code can influence the severity of hemophilia as well. Lets look at a reversal mutation that results in the creation of a stop codon (this type of mutation is often called a nonsense mutation) early on in the code sequence. The stop codon tells the machinery to stop production of the factor protein molecule at that point. In this case, the molecule would never actually be made. If we look instead at a point mutation resulting in simply an incorrect amino acid in that location (often called a missense mutation) half way through the code sequence, results can vary dramatically. The factor molecule will be made incorrectly, either not functioning for its purpose at all or simply doing a less than efficient job. I hope that helps some.
There is no such thing as an F8 tornado. The scale as it works only goes up to F5 since it is based on damage rather than wind speed. However, theoretical winds in an F8 tornado would be 446-514 mph. Such winds are not thought to be possible in a tornado.
there are no cheats actualy there are some bu they dont work here they are: f3 f4 f5 f6 f7 f8
The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.The Shift key and any of the arrow keys can be used. The F8 key and arrow keys can also be used. Using Shift when working with F8 can also allow you to select multiple ranges.
F8 or F10
It is a way of allowing you to select cells with the keyboard. If you press F8 and then start pressing the arrow keys, you will find it starts to extend the selection. Shift F8 can be used to help you to select non-contiguous cells. Alt-F8 can be used to run Macros.
By pressing F8 during start-up it will activate safe-mode, some computers need it to be pressed repeatedly. Pressing F8 during normal conditions does nothing, unless, you assigned a task to it.
Pressing F8 will start selection mode in Excel.
what is meaning of f3
F8
f8 or print screen.
Press control and f8
The F8 button