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The length of parallels of latitude decreases as you move south from the North Pole to the equator. This is because the lines of latitude get closer together as you move towards the equator due to the shape of the Earth.
They arecircular;parallel to each other;know by numbers which are the degrees away from the equator, ranging from 0° to 90° (North/South);are longest at the equator (0°); andget shorter towards the poles where they become 0 length at the poles (90° N/S).
The parallel of zero° latitude is a circle (called the 'equator')that's roughly 24,900 miles long.The parallel of 15° latitude is a circle that's roughly 24,000 miles long.The parallel of 30° latitude is a circle that's roughly 21,500 miles long.The parallel of 45° latitude is a circle that's roughly 17,600 miles long.The parallel of 60° latitude is a circle that's roughly 12,400 miles long.The parallel of 65° latitude is a circle that's roughly 10,500 miles long.The parallel of 70° latitude is a circle that's roughly 8,500 miles long.The parallel of 75° latitude is a circle that's roughly 6,400 miles long.The parallel of 80° latitude is a circle that's roughly 4,300 miles long.The parallel of 85° latitude is a circle that's roughly 2,170 miles long.The parallel of 87° latitude is a circle that's roughly 1,300 miles long.The parallel of 88° latitude is a circle that's roughly 870 miles long.The parallel of 89° latitude is a circle that's roughly 430 miles long.There is no 'parallel' of 90° latitude. It's a single point (the north or south pole),and has no length at all.
In general, as latitude increases away from the equator towards the poles, temperatures tend to decrease. This is due to a variety of factors, including the angle of sunlight hitting Earth's surface, the length of daylight hours, and the amount of atmosphere sunlight must pass through.
The length of Pluto's equator is approximately 4,493 miles (7,232 kilometers).
Sun rises and set due to rotation of earth. As sun moves from equator length of day increases or decreases depend upon which hemisphere sun is i.e. deceleration of sun. Length of the day rapidly increases towards the pole. As per your question it depended upon your position w.r.t. latitude. If you are close to pole length of the day increases more than if you are close to equator.
The length of parallels of latitude decreases as you move south from the North Pole to the equator. This is because the lines of latitude get closer together as you move towards the equator due to the shape of the Earth.
They arecircular;parallel to each other;know by numbers which are the degrees away from the equator, ranging from 0° to 90° (North/South);are longest at the equator (0°); andget shorter towards the poles where they become 0 length at the poles (90° N/S).
You may be thinking of the distance between lines of longitude. The length of the lines of latitude decrease because the Earth is round, so the length of the line is shorter at the poles than it is at the Equator. The distance between the lines of longitude is shorter as you move toward the poles, again, because the Earth is round. All lines of longitude are the same length.
Because they are parallel, while the earth is round. So a line round the equator will be longer than a line parallel with it at a higher latitude.
No, the equator is an imaginary line that divides the Earth into northern and southern hemispheres. The sun is directly overhead the equator only during the equinoxes, when day and night are of equal length.
It depends on the inclination of the line of cross section. If it is at an incline to the sides and diagonal, the cross section is a point which becomes a line that increases in length, reaches a maximum, remains at that length and then shrinks back to a point. If it is parallel to a diagonal, the cross section is a point which becomes a line that increases in length, reaches a maximum and then shrinks back to a point. If it is parallel to a side, the cross section is a line of constant length.
Usually NOT - because maps are a projection from a sphere to a plane. In a normal map, the further away from the equator you are, the more stretched out the map is.
The locus of all points of zero latitude ... sometimes also known as the "Equator" ... is the longest parallel of constant latitude. It's length is the equatorial circumference of the earth ... roughly 24,900 miles (40,073 km) .
The parallel of zero° latitude is a circle (called the 'equator')that's roughly 24,900 miles long.The parallel of 15° latitude is a circle that's roughly 24,000 miles long.The parallel of 30° latitude is a circle that's roughly 21,500 miles long.The parallel of 45° latitude is a circle that's roughly 17,600 miles long.The parallel of 60° latitude is a circle that's roughly 12,400 miles long.The parallel of 65° latitude is a circle that's roughly 10,500 miles long.The parallel of 70° latitude is a circle that's roughly 8,500 miles long.The parallel of 75° latitude is a circle that's roughly 6,400 miles long.The parallel of 80° latitude is a circle that's roughly 4,300 miles long.The parallel of 85° latitude is a circle that's roughly 2,170 miles long.The parallel of 87° latitude is a circle that's roughly 1,300 miles long.The parallel of 88° latitude is a circle that's roughly 870 miles long.The parallel of 89° latitude is a circle that's roughly 430 miles long.There is no 'parallel' of 90° latitude. It's a single point (the north or south pole),and has no length at all.
In general, as latitude increases away from the equator towards the poles, temperatures tend to decrease. This is due to a variety of factors, including the angle of sunlight hitting Earth's surface, the length of daylight hours, and the amount of atmosphere sunlight must pass through.
The length of Pluto's equator is approximately 4,493 miles (7,232 kilometers).