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Global Climate change {M: capital} and Weather Patterns

Extreme weather patterns can be associated with global climate change. For instance, according to the National Climate Assessment, the most physical outcomes of a warming world is {U: subject-verb agreement} the increase in the frequency and intensity of intense weather patterns. Again, to research analysis for data collected within decades, the National Climate Assessment concluded that the number of heat waves, major hurricanes, and heavy downpours has doubled in the United States while the strength of these occurrences has increased. Further, weather conditions vary based on geographical locations. Records of the disaster show that there is a link between climate change and severe weather patterns {M: comma} and some of the known crises that have been influenced by climate change include floods, cyclones, and floods. Another impact that climate change may have on weather patterns is a rise in sea level increases the effect of coastal storms while warming can put more strain on water supplies during drought seasons.

Accordingly, precipitation is expected to continue as the earth continues to get warm which increases the amount of water vapor held in the atmosphere. According to a science analysis, for every degree of warming, the capacity of air to hold water vapor increases up to approximately 7% {M: comma} and an atmosphere continuing more moisture is believed to generate more strong precipitation. However, an increase in heavy precipitation is not always linked to the augmentation of total rainfall over a given period. Strong proof exists to show the influence of climate change in specific weather events in the world. To demonstrate, Hurricane Katrina is attributed to change in weather patterns and climate change which struck near Miami as category 1 and along eastern La Western Miss Coastlines, leading to extreme storm surge damage. Also, Hurricane Sandy caused massive destruction across various northeastern states such as New York, New Jersey, Maryland, Connecticut, Maine, Rhode {U: Island} and Massachusetts due to high wind and coastal storm efflux. {O: this needs a more conclusive ending}

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