The sun never moves although it might seem to hang low it's just the position of the earth.
In the Southern Hemisphere, the sun appears lower in the sky in December due to the summer solstice occurring during that month, resulting in longer days and higher temperatures. In June, during the winter solstice, the sun is higher in the sky and the days are shorter and cooler.
The sun appears higher in the sky during the summer season. This is due to the tilt of the Earth's axis, which causes the northern or southern hemisphere to receive more direct sunlight. As a result, the days are longer and the sun reaches a higher peak in the sky at noon. Conversely, during winter, the sun appears lower in the sky.
The position of the sun at midday on a winter's day is lower in the sky compared to midday on a summer's day. This is due to the tilt of the Earth's axis, which causes the sun's angle to change throughout the year. In winter, the sun's lower position results in shorter days and less direct sunlight.
It is called winter solstice, when the sun is at its lowest point in the sky and daylight hours are at their shortest. This can result in periods of prolonged darkness during the winter months due to the tilt of the Earth's axis.
Shadows will be more evident when the Sun is lower in the sky, such as during the early morning or late afternoon. At noon, when the Sun is highest, shadows are shorter and less pronounced. Conversely, as the Sun approaches the horizon, shadows lengthen, making them more noticeable. Thus, the position of the Sun significantly affects shadow visibility.
The sun reaches its highest elevation at the moment that summer begins.
In winter the Sun is lower in sky
In the UK, and northern hemisphere, the sun is lower in the sky during winter. This means that when travelling across the sky, from sunrise to sunset, the day is much shorter. So the days are short and the nights are long in winter.
In the Southern Hemisphere, the sun appears lower in the sky in December due to the summer solstice occurring during that month, resulting in longer days and higher temperatures. In June, during the winter solstice, the sun is higher in the sky and the days are shorter and cooler.
Because the distance to the Sun is quite secondary in this case. What really matters is how high the Sun is in the sky, and how long - and in the northern hemisphere, the Sun is quite a bit lower in the sky at the winter equinox, and days are quite a bit shorter.
The sun appears to transit the southern sky when viewed from the northern hemisphere due to the Earth's axial tilt. This tilt causes the sun's position in the sky to vary throughout the year, with the sun appearing higher in the sky during the summer and lower in the sky during the winter.
The sun is highest in the sky during summer due to the tilt of the Earth's axis. This causes the sun's rays to be more direct, leading to longer daylight hours and warmer temperatures. In winter, the sun is lower in the sky, resulting in shorter days and cooler temperatures.
Because of the tilt of Earth's axis.
The Sun Would Be Visible In The South, But Lower In The Sky.
The answer is that annually, on the day of the summer solstice the sun will be highest in the sky at noon. But the sun will be lowest in the sky at noon, on the day of the winter solstice. So on the day of an 'equinox' the sun will be in an intermediate position at noon because an equinox represents the time of year when day and night are roughly equal. Because the days are longer in summer, then the sun will high in the sky at noon and if you plant a stick in the ground it will project a short shadow. In winter when the days are short, the sun is lower in the sky at noon and will project a long shadow. At an equinox therefore, the noon shadow will be half way in between because day and night are roughly equal.
It will be lower in the sky. As the midpoint of winter passes, the noontime sun will be higher each day until midsummer.
The Earth's axis tilt is responsible.