Tropical Cyclone, Hurricane, Storm Formation explained | Cyclone Biparjay in Arabian Sea, Gujarat

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in this video we are going to learn

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about tropical cyclones the first thing

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you need to understand is that tropical

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cyclones originate over oceans in

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tropical areas and coastal regions if

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you all know this is the tropical region

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it is the region of the earth near to

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the equator and between the Tropic of

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Cancer in the northern hemisphere and

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the Tropic of Capricorn in the southern

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hemisphere tropical cyclones are known

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by different names depending on the

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region in the Indian Ocean they are

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known by simply cyclones if you go to

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the western Pacific side or near the

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South China Sea it is called as typhoons

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likewise near Western Australia it is

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known by relieve Lee's all these are

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different names refer to the same type

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of storm you must be knowing this that

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tropical region receives the most solar

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radiation per area and the reason behind

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that is due to the incoming solar

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radiation that are direct and vertical

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at the tropical region and as you move

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towards the polar region the angle of

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the sun rays are not vertical

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they are slanting rays vertical rays of

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sunlight are more effective in producing

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light and heat than slanting rays and

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that's why the tropical region is warm

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now that you have understood the main

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things about the tropical region let's

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understand about wind movement when the

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movement is determined by low pressure

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and high pressure systems it is the

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differences in atmospheric pressure that

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creates pressure gradient and makes the

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wind move and wind always blow from the

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areas of high pressure to low pressure

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areas now the next question is what

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causes low pressure and high pressure

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low pressure occurs when air is warm

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either from being over a warm land or

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ocean surface that means low pressure

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occurs at a place which is warm and how

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does a place become warm because of the

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incoming heat from the Sun that is why

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tropical region is a perfect place where

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low pressure occurs similarly high

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pressure occurs when air is cool

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either from being over a cool land or

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ocean surface that is why in the polar

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region that is you're not in South Pole

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it is a high-pressure zone and always

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remember rains blow from the areas of

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high pressure to low pressure areas

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while all of this happens there's

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another important phenomena which comes

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into the picture

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it's called Coriolis force due to the

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rotation of the earth the earth rotates

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towards the east and that's why the Sun

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Moon planets and stars all rise in the

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east and go towards the west

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anyways due to the rotation of the earth

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there is a force that is generated and

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it acts perpendicular to the direction

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of motion and to the axis of rotation in

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simple terms when the earth is spinning

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in its axis from west to east and we

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also know that earth is a sphere and it

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is much wider in the middle as a result

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the speed of the surface of the earth at

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the equator

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is much faster than the speed at the

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poles so if anything has to come

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straight from the poles towards the

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equator it gets deflected to the right

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in the northern hemisphere and to the

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left in the southern hemisphere and this

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force that we are talking about is

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called Coriolis force

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it causes fluids like water and air to

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curve as they travel across or above the

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earth's surface due to Coriolis force

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the air in the northern hemisphere gets

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deflected to the right side now you

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might think no that is going towards the

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left side but then I said the air is

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going to curve to the right side in the

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northern hemisphere to clear your

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confusion you have to actually see it

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from the direction in which the when

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this moving so what I'm going to do is

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I'm going to rotate this picture and now

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put yourself in the path of the wind now

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you will be able to see that the air in

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the northern hemisphere curves to the

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right while moving from high pressure to

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the low pressure area similarly in the

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southern hemisphere the air is deflected

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to the left side while moving from high

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pressure to low pressure area

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in this case we don't have to rotate the

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picture now that you have understood why

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the air moves to the left and right due

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to Coriolis force

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just remember this point that it is

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because of this reason there are certain

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pressure belts all over the Earth's

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surface you must be familiar with this

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picture which shows global wind

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circulation pattern you can see that at

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different latitudes there are different

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pressure belts their existence is simply

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due to the movement of air to the left

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and right

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due to Coriolis force I hope so far you

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have understood the general movement of

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air now let's understand how this air

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turns into a storm and what causes the

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spinning of a cyclone when you look at

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the movement of a cyclone at the center

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of every cyclone or hurricane you will

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find an area of low pressure which

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attracts the cool air since we know that

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air moves from high pressure area to low

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pressure area that means the outer area

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of a cyclone consists of cool air coming

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from high pressure area which surrounds

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the central low-pressure area this

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region is called the eye of the storm

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or center of this storm the low-pressure

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region is a warm region where the air is

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warm which expands and then Rises the

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cool air from high pressure zone rushes

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in to fill the void left by the rising

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warm air this air warms and becomes

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moist as well allowing it to rise then

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more cool air rushes in to fill the void

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the warm moist air cools as it rises

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higher into the atmosphere because

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temperature drops with increasing

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altitude that is also how clouds are

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formed now this process continues again

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and again as a result you will see an

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eye like figure at the center of the

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storm now comes the Coriolis effect in

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the northern hemisphere the cool air

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rushing towards the center of the storm

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is deflected slightly to the right but

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keep in mind the cool air keeps getting

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attracted towards the center because

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that's where the warm low-pressure zone

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is while moving towards the center

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the cool air keeps getting deflected now

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this creates a spin in a

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counterclockwise direction in the

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southern hemisphere the Coriolis effect

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moves air to the left opposite to what

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happens in the northern hemisphere as a

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result the spinning of this cyclone is

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in a clockwise direction in the southern

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hemisphere tropical cyclones are intense

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and in the beginning we have read that

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it occurs over the ocean surface and

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coastal region because there is a

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continuous supply of moisture from the

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ocean or sea when it reaches the land

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the moisture supply is cut off and the

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storm dissipates when the cyclone

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crosses the coast because after that the

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landmass starts so the place where

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tropical cyclone crosses the coast is

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called the landfall of the cyclone

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meaning the power of this cyclone

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naturally decreases because the supply

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of moisture is cut off the average

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diameter of a circulating tropical

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cyclone can vary between 150 and 250

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kilometers however the diameter of this

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storm over the Bay of Bengal Arabian Sea

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and Indian Ocean is between 600 to 1200

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kilometers and these cyclones move

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slowly at a speed of about 300 to 500

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kilometers per day so far we have seen

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the top view of a tropical cyclone and

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this is what it looks but eclis this is

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the eye of the storm around the eye is

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the eye wall if you look at the height

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of the cyclone the circulation of the

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tropical cyclone extends up to the

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troposphere that is around 15,000 to

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18,000 meters when warm moist air rises

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up in the atmosphere after a certain

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height it starts cooling because the

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temperature drops with increasing

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altitude as the air cools it becomes

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denser and move towards the ground this

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is called subsiding warm air and this is

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what intensifies this storm by

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increasing the diameter of this storm

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and as the diameter increases these

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spiral rain bands expands and pushes the

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rain clouds into the outer region

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tropical cyclones occur at the time of

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maximum solar radiation during the

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summer and autumn season that is around

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July to October time in the Northern

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Hemisphere and December to March time in

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the southern hemisphere with this I hope

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you have now understood the complete

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anatomy of a tropical cyclone if you

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still find it a little confusing I

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recommend that you go back and watch the

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video again especially the part where I

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said that the air in the northern

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hemisphere curves to the right when

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moving from high pressure to low

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pressure area and in the southern

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hemisphere it curves to the left many

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people find that concept a little

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confusing so watch it again if you

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understand the clockwise and

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anti-clockwise movement of the air then

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you will understand everything anyways I

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hope you found this video informative

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let me know your thoughts in the comment

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section thanks for watching and I'll see

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you in the next one