Canada's distance from the equator results in significant variations in daylight hours throughout the year. In summer, regions farther north experience long days with extended hours of sunlight, while in winter, they face much shorter days and limited sunlight. This seasonal fluctuation is especially pronounced in northern areas, where the phenomena of the Midnight Sun and Polar Night can occur, leading to 24 hours of daylight in summer and complete darkness in winter. Overall, Canada’s latitude contributes to its diverse climate and seasonal patterns.
Obviously, being closer to the Sun, Earth will get more radiation. But the effect is not very significant.
The fur trade affected the development of Canada's provinces.
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The British North America Act came into effect on July 1, 1867, thereby creating Canada. Canada was the first country to be created by legislation.
The Earth's seasons are primarily caused by the tilt of its axis, not the distance from the sun. As the Earth orbits the sun, the tilt causes different parts of the Earth to receive varying amounts of sunlight throughout the year, leading to the changing seasons. While the distance from the sun does vary slightly, it has a minimal effect on seasonal changes compared to the axial tilt.
Equator has a lower angular deflection of sunlight and therefore warmer temperatures
Solar radiation has a greater impact on climate at the equator compared to polar regions. This is because the equator receives more direct sunlight throughout the year, leading to warmer temperatures. In contrast, at polar regions, sunlight is spread out over a larger area, resulting in cooler temperatures.
The Earth's spherical shape causes sunlight to be more concentrated at the equator compared to the poles. At the equator, sunlight strikes the surface more directly, resulting in higher solar energy per unit area. In contrast, at higher latitudes, sunlight hits at a slant, spreading energy over a larger area and reducing its intensity. This difference in solar exposure contributes to the equatorial regions being warmer than polar regions.
Latitude affects climate by determining the angle at which sunlight strikes the Earth's surface. Areas closer to the equator receive more direct sunlight and therefore tend to be warmer, while areas closer to the poles receive sunlight at a more oblique angle, leading to cooler temperatures. This variation in sunlight intensity is a key factor in shaping global climate patterns.
The Coriolis effect is zero at the equator because the rotation of the Earth is perpendicular to the direction of motion at the equator, resulting in no deflection of moving objects.
The diameter of the Earth is greatest at the equator, measuring approximately 12,742 kilometers (7,918 miles). This is due to the Earth's rotation causing a bulging effect around the equator, resulting in a slightly larger diameter compared to the distance between the Earth's surface through the poles.
The Coriolis effect is weakest at the equator because the effect is a result of the Earth's rotation, and the rotational speed is slower at the equator compared to higher latitudes. As a result, the Coriolis force is less pronounced near the equator.
The equation for the force of gravity is F=-GMm/r2 at the equator the earth has more mass due to the gravity of the sun distroting the sherical shape of the earth. But this mean that the distance between the centre of the earth to the poles (r) is less and because r is squared the effect of distance has more of an impact than the mass so this means that gravity is stronger at the poles and weaker at the equator.....
The Coriolis Effect is strongest at the poles and weakest at the equator. This is because the effect is influenced by the rotation of the Earth, and the rotational speed is greatest at the poles and slowest at the equator.
== == Coriolis Effect Hope it helps.. :)
Coriolis effect
The temperature at 20 degrees north is warmer than at the Equator due to the tilt of the Earth's axis. At 20 degrees north, the tilt causes this region to receive more direct sunlight and experience a stronger heating effect, resulting in higher temperatures compared to the Equator.