They only have one electron in their outer most shell which makes them very reactive.
As babies they may reach growth and development milestones later than
other children do. These may include rolling over, sitting,
standing, walking, and talking. As children in this age group,
health problems and developmental disabilities can lead to
behavior problems. For example, a child may develop oppositional
defiant disorder which is a disorder in a child marked by defiant and disobedient behavior to authority figures.
They may get this disorder because he or
she does not communicate well or understand others' expectations. As teens puberty starts
at about the same ages for teens with Down syndrome as for other teens. <span>They may face social difficulties and vulnerabilities <em /><em />such as abuse, injury, and other types of harm. They may also have a
hard time handling strong emotions and feelings. Sometimes these
struggles can lead to metal health problems,
especially </span>depression which could lead to self-harm or even suicide. As adults men with Down syndrome most often are sterile and
cannot father children. Many women with Down syndrome can have children, and
they usually have early menopause which is <span>a natural decline in reproductive hormones when a woman reaches her 40s or 50s but in this case it would usually happen early in Down Syndrome women.
Hope this helps you out on your report is there anything else you want me too help you with? :)
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Star is a brilliantly glowing sphere of hot gas whose energyis produced by an internalnuclear fusion process. Stars are contained in galaxies. A galaxy contains not only stars, but clouds of gas and dust. These clouds are callednebulae, and it is in a nebula where stars are born. In the nebula is hydrogen gas which is pulled together by gravityand starts to spin faster. Over millions of years, more hydrogen gas is pulled into the spinning cloud. The collisions which occur between the hydrogen atoms starts to heat the gas in the cloud. Once the temperature reaches 15,000,000 degrees Celsius, nuclear fusion takes place in the center, or core, of the cloud. The tremendous heat given off by the nuclear fusion process causes the gas to glow creating a protostar. This is the first step in the evolution of a star. The glowing protostar continues to accumulate mass. The amount of mass it can accumulate is determined by the amount ofmatter available in the nebula. Once its mass is stabilized, the star is known as a main sequence star. The new star will continue to glow for millions or even billions of years. As it glows, hydrogen is converted into helium in the core by nuclear fusion. The core starts to become unstable and it starts to contract. The outer shell of the star, which is still mostly hydrogen, starts to expand. As it expands, it cools and starts to glow red. The star has now reached the red giant phase. It is red because it is cooler than the protostar phase and it is a giant because the outer shell has expanded outward. All stars evolve the same way up to the red giant phase. The amount of mass a star has determines which of the following life cycle paths the star will take.
