The statement "No tornadoes have exceeded 2 miles in diameter" is not true. Tornadoes can vary greatly in size, and some of the largest tornadoes on record have exceeded 2 miles in diameter.
Tornadoes are powerful and destructive phenomena that can have varying characteristics. While most tornadoes are relatively small in size, there have been cases where tornadoes have grown to significant diameters. These large tornadoes, often referred to as "wedge" tornadoes, can have diameters well over 2 miles. They are typically associated with intense supercell thunderstorms and can cause extensive damage in their path.
It is important to note that tornadoes come in different forms and sizes, and their characteristics can vary greatly. The occurrence of multiple vortices within a single tornado is also possible. These multiple vortices are smaller whirlwinds that rotate around the main tornado, creating a complex and dynamic structure. The presence of multiple vortices can contribute to the destructive potential of a tornado, as it can result in a more erratic and widespread pattern of damage.
In summary, while most tornadoes are smaller in size, there have been instances of tornadoes exceeding 2 miles in diameter, and multiple vortices can occur within a single tornado.
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Which of the following hazards due to earthquake shaking should you be prepared for near the urban area of San Francisco and Oakland? Not yet answered Select one O a. Breaking and falling glass windows O b. Crumbling and tumbling buildings and chimneys Points out of 1.00 Flag question C. Gas leaks and fires due to broken gas lines d. Little to no water supply due to severed water pipes and aqueducts the bring water to the Bay Area e. All of these f. None of these
The correct option is C. Gas leaks and fires due to broken gas lines. Gas leaks and fires due to broken gas lines are the hazards due to earthquake shaking that one should be prepared for near the urban area of San Francisco and Oakland in addition to breaking and falling glass windows.
Crumbling and tumbling buildings and chimneys, and little to no water supply due to severed water pipes and aqueducts that bring water to the Bay Area. It's important to be prepared for any possible emergency. Emergency preparedness kits should be packed and stored in a safe place, and family members should know where to meet in case of an earthquake.
It is advised to be aware of the area's evacuation routes and follow the instruction of the local authorities in the event of an earthquake or any other emergency situation. Moreover, it is important to keep your gas and electric appliances up to date and maintain them on a regular basis. This will help prevent gas leaks and fires that might occur due to broken gas lines.
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given the rate of sand growth, how many years following 1928 (and its shoreline) do you think it would be before the breakwater and the shoreline joined together?
The breakwater construction began in 1915, and the sand grew by 1 meter annually. So, after 13 years of the breakwater construction, the shoreline was 13 meters further out from the pre-construction shoreline. In 1928, the shoreline was 13 meters further out than the original shoreline.
Therefore, after 13 more years, which is in 1941, the shoreline will have been 26 meters further out from the pre-construction shoreline. The breakwater was extended by 168 meters in 1941 and the sand would grow annually by 1 meter.
Therefore, it will take 168 years after 1941 to catch up with the shoreline if it were to continue growing annually by 1 meter. 168 years after 1941 is in the year 2109. Therefore, the breakwater and the shoreline will join together in the year 2109.
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describe the differences between a meteor, meteoroid, and meteorite. include what they would look like or we would see as a consequence of each of them.
A meteor is a bright streak of light in the sky caused by a meteoroid entering the Earth's atmosphere. A meteoroid is a small rocky or metallic object that travels through space. A meteorite is a meteoroid that survives its passage through the atmosphere and lands on the Earth's surface.
A meteor, also known as a shooting star, is a phenomenon that occurs when a meteoroid, a small object usually ranging from the size of a grain of sand to that of a boulder, enters the Earth's atmosphere. As it travels through the atmosphere, the friction causes the meteoroid to heat up and create a glowing trail of light, which we observe as a meteor streaking across the sky. These meteors can be seen for only a brief moment, typically lasting only a few seconds or less.
A meteoroid, on the other hand, is the actual object that enters the Earth's atmosphere and causes the meteor. It is a solid piece of rock or metal that originates from various sources, such as asteroids or comets. Meteoroids can vary in size, with smaller ones burning up completely in the atmosphere, while larger ones may survive and reach the Earth's surface.
When a meteoroid successfully makes it through the atmosphere and lands on the Earth's surface, it is called a meteorite. Meteorites can be found in different forms, such as stony (made mostly of silicate minerals), iron (made predominantly of iron and nickel), or stony-iron (a combination of silicate minerals and metal). They often bear distinctive features from their journey through space and the intense heat of atmospheric entry.
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if you were tracking the number of hurricanes in the atlantic from 1 jun to 30 nov for each year, what control chart would you use?
If you were tracking the number of hurricanes in the Atlantic from June 1st to November 30th each year, a suitable control chart to use would be the u-chart.
The u-chart is a type of control chart used to monitor the count of defects or occurrences in a constant-sized sample over time. In this case, the number of hurricanes would be the count of occurrences, and each year would be considered a separate time period.
The u-chart helps identify variations or patterns in the count of hurricanes, allowing you to determine whether the observed counts fall within acceptable control limits or if there are any significant deviations or trends. By analyzing the data plotted on the u-chart, you can assess the stability of the process and identify any unusual or out-of-control conditions.
Using the u-chart for tracking the number of hurricanes in the Atlantic over time can provide valuable insights into the occurrence patterns, seasonal trends, and potential changes in hurricane activity, aiding in better understanding and managing these natural phenomena.
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