If one is color blind, it may effect the way they see everyday things, like traffic lights. If all a person can see is gray, they may have difficulty knowing when to stop and/or go.
Influence the people in the study
There's a lot of ways science influence people. The list can go on forever, but for me, the key ones that are not really noticeable are light, paper, beds, guitars, school, sinks, computers, and clocks.
If the city is near a large body of water, then the influence is marine. If not, then the influence is continental.
Social experiences influence an infant's motor development by allowing the infant to see and mimic the motions and sounds of other people. A child often learns by mimicking adults or other children.
Using the Punnet square, if the male is xY and the female is XX, where x = recessive and X = dominant, then males get the disease since they only have 1 x chromosome. Females can be carriers, Xx, or have the disease..xx, or not at all XX..so X X (female none carrier)x Xx XxY XY XY(male carrier)Leaves you with 100 percent chance of daughters being carriers, and 100 Percent chance for sons being healthy none carriers....
for ever!
10%
Colorblindness is usually a genetic trait. There is no more a cure for genetic colorblindness than there is for blond hair.
No you must not choose any diverse colorblindness
The proper name for colorblindness is color vision deficiency.
As of 2016 there is no cure or treatment for colorblindness.
Sex linked
Not necessarily. The allele for colorblindness is recessive. For a female, in order to be colorblind she must have to recessive alleles for colorblindness. Example: XcXc would be colorblind. XCXc would be a carrier for colorblindness, but not colorblind. For a male, because colorblindness is a sex-linked gene, he only needs one allele to be colorblind. Example: XcY is colorblind. XCY is not colorblind.
no
the allele for colorblindness is recessive and located on the X chromosomes
Colorblindness is characterized by not being able to tell apart two colors when they are the same value. Colorblindness is an x-linked trait, so it is much more common in males than females.
No, the term "red-green colorblindness" means that you cannot tell the difference between red and green. There are several different types of colorblindness; red-green colorblindness is the most common kind. For example, another kind is blue-yellow colorblindness, where a person cannot tell the difference between blue and yellow. All types of colorblindness are much more common in men. See the Related Link below for the Wikipedia entry on colorblindness.