Lines of latitude decrease in size as they move towards the poles because the Earth is a sphere, and the lines of latitude are parallel circles around the globe. As you move towards the poles, these circles become smaller as they converge towards a point at the poles. This decrease in size is due to the diminishing circumference of the Earth at higher latitudes.
No, lines of latitude do not shorten towards the poles. Lines of latitude are parallel to each other and are the same distance apart from each other at any point on Earth.
As lines of latitude get closer to the poles, they get shorter in length and converge towards a point at the poles. This is because the Earth is a sphere, and the lines of latitude represent circles around the Earth. The lines of latitude are farthest apart at the equator and gradually come together towards the poles.
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.
The distance between 1 degree of longitude decreases towards the poles due to the convergence of the lines of longitude at the poles, which are closer together compared to at the equator. This happens because the Earth is a sphere and not flat, and the lines of longitude converge towards the poles.
Lines of latitude decrease in size as they move towards the poles because the Earth is a sphere, and the lines of latitude are parallel circles around the globe. As you move towards the poles, these circles become smaller as they converge towards a point at the poles. This decrease in size is due to the diminishing circumference of the Earth at higher latitudes.
No, lines of latitude do not shorten towards the poles. Lines of latitude are parallel to each other and are the same distance apart from each other at any point on Earth.
As lines of latitude get closer to the poles, they get shorter in length and converge towards a point at the poles. This is because the Earth is a sphere, and the lines of latitude represent circles around the Earth. The lines of latitude are farthest apart at the equator and gradually come together towards the poles.
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.
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.
The distance between 1 degree of longitude decreases towards the poles due to the convergence of the lines of longitude at the poles, which are closer together compared to at the equator. This happens because the Earth is a sphere and not flat, and the lines of longitude converge towards the poles.
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.
No, temperatures generally decrease as latitudes increase. The equator (30° to 40°C) is 0° latitude while the poles (0° to -40°C) are at 90° latitude.
The length of 1 degree of latitude is less at the equator because the Earth's circumference is greatest at the equator due to its bulging shape. As you move towards the poles, the Earth's circumference decreases, causing the length of 1 degree of latitude to increase because the lines of latitude are closer together near the poles.
Temperature generally decreases with increasing elevation due to the decrease in atmospheric pressure, which results in cooler conditions. As for latitude, temperature tends to decrease towards the poles due to the angle at which sunlight hits the Earth's surface, causing differences in heating and cooling patterns.
-- All meridians of longitude have the same length ... they all join the north and south poles. -- Each parallel of north latitude has the same length as the parallel at the equal south latitude, but no other one.
The graduation or scale of measurement of latitude from the equator to the poles is not the same because the Earth is not a perfect sphere but an oblate spheroid. As you move from the equator towards the poles, the lines of latitude get closer together due to the decreasing circumference of the Earth. This means that the distance covered by each degree of latitude decreases towards the poles.