What does the 1:100 scale mean?
A 1:100 scale represents an object or subject that is 100 times smaller than its true world size of 1. As a result, while reading this scale, 1 unit is comparable to 100 units.
A 1:100 scale is most typically coupled with millimeters, cementers, and/or meters when used with metric units, and may be used for map reading, where a 1cm measurement would be equal to 1 meter (100 times bigger) when measured with a scale rule.
1 centimeter (on the map) equals 100 m (on the ground)
Take the left side of the ratio, then the right side, multiplies each by 1 cm on the ratio scale.
Then there's 1 centimeter: 10000 cm.
1 m equals 100 cm
As a result, 1 centimeter (on the map) Equals 100 m (on the ground).
To learn more about ratio scale:
https://brainly.com/question/2429309
Correct Question:
Write the following word scale as a ratio scale. 1 centimetre on the map represents 100 metres on the ground.
A mid latitude cyclone is steered driven by the
Answer:
Explanation:
A mid-latitude cyclone, also known as an extratropical cyclone, is a type of weather system that forms in the middle latitudes and can bring significant impacts to the areas it affects. These cyclones are driven by the wind patterns in the mid-latitudes and are influenced by several meteorological factors.
The prevailing westerlies, which are winds that blow from the west to the east in the mid-latitudes, play a key role in steering these cyclones. The westerlies can cause a mid-latitude cyclone to move from west to east across the middle latitudes.
The pressure gradient, which is the difference in atmospheric pressure between two points, also affects the movement of mid-latitude cyclones. As the pressure gradient increases, the winds become stronger, which can help to steer the cyclone.
The Coriolis effect, which is the result of the earth's rotation, also plays a role in the movement of mid-latitude cyclones. The Coriolis effect causes the winds to turn to the right in the northern hemisphere and to the left in the southern hemisphere, which can cause the cyclone to turn and move in a particular direction.
The position of high and low pressure systems can also influence the steering of a mid-latitude cyclone. For example, if a strong high-pressure system is located to the east of the cyclone, it can cause the cyclone to move towards the east.
In general, mid-latitude cyclones bring precipitation, strong winds, and sometimes severe weather to the areas they impact. They can cause significant disruptions to daily life, including flight cancellations, power outages, and road closures. It is important to stay informed and to take necessary precautions when a mid-latitude cyclone is expected in your area.
