Because we live in the Northern Hemisphere. The most sun exposure on Earth is at the Equator so in the Northern Hemisphere, the southern-facing windows have the largest angle facing the sun while the northern-facing windows face away from the sun. In the Southern Hemisphere, this is the opposite.
North of the arctic circle, or south of the antarctic circle, but only at certain times of the year.
Why do aloes prefer to grow on a north facing slope rather than on a South facing slope
There are areas on Earth that can receive 24 hours of day and 24 hours of night - but not at the same time. North of 66 1/2 degrees latitude N. (the Arctic Circle) will receive 24 hours of sunlight during the middle of the summer. During the middle of winter this same area will receive no sunlight. During these 2 seasons it is just the opposite south of 66 1/2 degrees S. latitude (Antarctic Circle). This is all due to the tilt of the earth's axis and if it is tilted towards or away from the sun.
Well if each turn is 90° or a multiple of 90°, then it will have turned 360° or a multiple of 360°, which is a complete circle. So if you are facing North, and turn 90° to the right, then you are facing East. Another 90° and you're facing South. Turn 90° for the third time, and you're facing West. The fourth 90° turn to the right, and you're back facing North, again.
Above the Arctic Circle, locations will experience at least one 24-hour period of sunlight per year as well as at least one 24-hour period with no sunrise at all. The tilt of the Earth means that when the noon Sun is directly overhead a point above the equator, the North Pole receives 24 hours of sunlight. When the noon Sun is directly overhead a point south of the equator, the North Pole gets no sunlight at all. The closer a point is to the North Pole, the more days it has per year with either 24 hours of sunlight or 24 hours of night. At the North Pole, there is a 6-month period of constant daylight and a 6-month period with no daylight. (However, it can get somewhat bright during daytime hours in early spring and late fall when the Sun is just slightly below the horizon.)
It is possible for apartments facing north to obstruct satellite signals. Any dwelling to the north of the apartment building might have their satellite signal obstructed if the building is very tall.
South-facing slopes in the southern hemisphere receive less direct sunlight, leading to less heating compared to north-facing slopes. This results in colder temperatures on the south-facing slopes because they do not receive as much warmth from the sun as the north-facing slopes.
North facing slopes in the northern hemisphere receive less direct sunlight compared to south facing slopes, causing them to be cooler. This difference in sunlight exposure leads to the north facing slopes retaining more moisture and heat, making them relatively warmer than other aspects.
Directional exposure of windows refers to the orientation of a window in relation to the sun's path throughout the day. East-facing windows receive morning sunlight, west-facing windows receive afternoon sunlight, north-facing windows receive consistent light without direct sun exposure, and south-facing windows receive the most sunlight throughout the day. Understanding directional exposure is important for designing buildings that maximize or minimize solar heat gain depending on the climate and energy efficiency goals.
Aspect refers to the direction a slope is facing (e.g. north-facing, south-facing). The aspect of a slope can affect temperature by influencing how much sunlight it receives; south-facing slopes receive more direct sunlight and tend to be warmer, while north-facing slopes receive less sunlight and tend to be cooler. This can create microclimates within a region that impact temperature gradients.
South-facing mountains in the Northern Hemisphere receive more direct sunlight, leading to warmer temperatures compared to the north-facing slopes. This exposure to sunlight creates a microclimate that is typically drier and sunnier, allowing for different vegetation to thrive and supporting unique ecosystems.
warmer and receive more sunlight than north-facing slopes, creating a unique environment for plant and animal life. The increased exposure to sunlight allows for greater plant growth and a more diverse ecosystem compared to the shaded north-facing slopes.
North facing slopes in the southern hemisphere receive more direct sunlight than south facing slopes, providing them with more warmth. This is due to the tilt of the Earth's axis and the angle at which sunlight strikes the slopes. The sunlight on north facing slopes is able to penetrate more deeply into the terrain, resulting in warmer temperatures compared to south facing slopes.
Icicles tend to form on the side of a building that receives less direct sunlight, typically the north-facing side. This is because the lack of sunlight allows snow and ice to accumulate, creating conditions for icicles to form.
South facing mountain slopes in the northern hemisphere receive more sunlight compared to north facing slopes, leading to higher temperatures and drier conditions. This creates a microclimate that can support different vegetation and wildlife compared to the cooler and more shaded north facing slopes.
because the south-facing sides receives more sunlight than the north-facing sides.
because the south-facing sides receives more sunlight than the north-facing sides.