Answer:
Tonsils are the two lymph nodes located on each side of the back of your throat. They function as a defense mechanism and help prevent your body from getting an infection. When tonsilsbecome infected, the condition is called tonsillitis. Tonsillitis can occur at any age and is a common childhood illness.
Any substance that induces the immune system to produce antibodies against it is called an antigen. Any foreign invaders, such as pathogens (bacteria and viruses), chemicals, toxins, and pollens, can be antigens. Under pathological conditions, normal cellular proteins can become self-antigens.
The spleen recognises old, or damaged red blood cells and removes them from your bodyby breaking them down and saving any useful components, such as iron, in the process. This keeps the blood circulating in your body clean and functioning at its best.
The thymus is a specialized primary lymphoid organ of the immune system. Within the thymus, thymus cell lymphocytes or T cells mature. T cells are critical to the adaptive immune system, where the body adapts specifically to foreign invaders.
This is up to question 4
Explanation:
Most single parent families' other parent will help support the child or children they shared. Sometimes it is a different case but most times they share the responsibility. The parents probably split before the child or children was too old. Like before the age of ten, usually.
The ICD 10 Code is L97.311
L97 signifies an ulcer
.31 An ulcer of the right ankle
.001 limited to breakdown of skin.
Answer:
The probability that this woman's daughter has hemophilia is 0%.
Explanation:
Haemophilia is a severe and most often hereditary coagulation disorder in which the individual's blood does not coagulate properly and can lead to uncontrolled bleeding that can be caused even spontaneously or by minor trauma.
Haemophilia is a resessive X-linked disease, so we can conclude that the woman exposed in the question has the hemophilia gene, but has normal coagulation. This is because this woman's father has hemophilia and donated the resurrective X chromosome to her, but the disease was prevented from manifesting because this woman, received from the mother the dominant comosso X, which prevented the disease from manifesting. Based on this reasoning, if this woman marries a man who does not have hemophilia, the chances of her first daughter having the disease are 0%. Because this girl's father doesn't have hemophilia so the X chromosome he will give the girl is free of the gene for this disease, even if the girl gets her mother's X chromosome and that chromosome has the gene that codes for hemophilia, the girl won't manifest the disease.
<span><span>Find your pulse at your wrist (the radial artery) or at your carotid artery in your neck.</span><span>Using your index and middle finger, count the number of beats you feel in 10 seconds. Do not use your thumb since it has a light pulse that can confuse you while counting.</span><span>Multiply the number of beats you count in 10 seconds by six to find the number of beats per minute. You can take your pulse three times, then take the average rate of all three to be super scientific.</span></span>