The closer you are to the poles, the greater the change.
yes. All the way around the equator the day length doesn't change.
The earth's equator is approximately 40,075 kilometres. There is no exact value because, amongst other things, the equator is not static: it moves with shifts in the axis of the earth's rotation.However, using calculus, it is possible to show that the length of the string would need to be 2*pi inches = 6.3 inches greater than the length of the equator measured in inches. Given the variability in measuring the earth's equator, that difference will not be identifiable.The earth's equator is approximately 40,075 kilometres. There is no exact value because, amongst other things, the equator is not static: it moves with shifts in the axis of the earth's rotation.However, using calculus, it is possible to show that the length of the string would need to be 2*pi inches = 6.3 inches greater than the length of the equator measured in inches. Given the variability in measuring the earth's equator, that difference will not be identifiable.The earth's equator is approximately 40,075 kilometres. There is no exact value because, amongst other things, the equator is not static: it moves with shifts in the axis of the earth's rotation.However, using calculus, it is possible to show that the length of the string would need to be 2*pi inches = 6.3 inches greater than the length of the equator measured in inches. Given the variability in measuring the earth's equator, that difference will not be identifiable.The earth's equator is approximately 40,075 kilometres. There is no exact value because, amongst other things, the equator is not static: it moves with shifts in the axis of the earth's rotation.However, using calculus, it is possible to show that the length of the string would need to be 2*pi inches = 6.3 inches greater than the length of the equator measured in inches. Given the variability in measuring the earth's equator, that difference will not be identifiable.
The further you go away from the equator towards the poles, the greater the seasonal temperature and daylight variations.
It is the same as daytime in June.
It all depends on your latitude. The closer you are to the equatorial latitudes, the more your days are equal in numbers closer to 12. In all other latitudes, the further you are up towards the poles, the larger the difference is of daytime and nighttime. At the equator, the days and nights are pretty much the same in summer and winter. But near the poles, summer is always in daylight and winter is always in darkness.
The length of daylight is 12 hours at both the equator and the poles.
rotaion for earth
There is no such place on Earth.
7,232
12 hours
daytime
yawa ka