Seasonal differences in solar intensity are much greater at Helsinki due to its high latitude, which results in extreme variations in day length throughout the year. During summer, the sun remains above the horizon for extended periods, leading to intense solar radiation, while in winter, the sun barely rises, significantly reducing solar exposure. This dramatic shift in solar intensity is further amplified by the Earth's axial tilt, which affects the angle at which sunlight strikes the surface, particularly in polar regions.
There is less seasonal difference in albedo in the tropics and southern hemisphere because these regions receive consistent sunlight throughout the year due to their proximity to the equator. In contrast, regions north of 40 degrees N experience greater seasonal differences in albedo due to the tilt of the Earth's axis, leading to more variation in sunlight exposure throughout the year.
The intensity of the basketball players helped them win the tournament.
Yes, the seasonal shift of isotherms is greater over continents than over oceans. This is because land heats up and cools down faster than water due to differences in heat capacity. As a result, the temperature difference between summer and winter is more pronounced over continents, leading to larger shifts in isotherms.
The greater the amplitude, the higher the intensity and the louder the sound.
The intensity of a sound is determined by the rate and density of energy transfer. The larger the amplitude, the greater the intensity, and the louder the sound.
The intensity of sound is dependent on the amplitude of the sound wave. The higher the amplitude, the greater the intensity of the sound. It is measured in decibels (dB) and corresponds to the loudness of the sound.
Sound wave intensity is most closely related to the amplitude of the wave, which measures the strength or height of the wave. Greater amplitude corresponds to greater intensity, or louder sound.
Intensity is the perceived loudness of a sound, which is related to the amplitude of the sound wave. The greater the amplitude, the higher the intensity, resulting in a louder sound. Intensity is typically measured in decibels (dB).
Your question is incoherent.
The intensity of a wave is affected by the wave's amplitude, which is the maximum displacement of a wave's particles from their rest position. The greater the amplitude, the greater the wave's intensity. In addition, factors such as the energy source of the wave, the medium through which the wave propagates, and interference with other waves can also influence a wave's intensity.
Arrival time and intensity difference. Due to the different spacial positioning and orientation of the ears, a sound wave will arrive at each ear at slightly different times and with slightly different intensity. For example, if a sound originates to the right of a person, the sound will reach the right ear first and the right ear will experience a greater intensity. These very small differences are integrated in the nervous system and are manifested as the ability to localize sound.
The position of the Sun in the sky affects the intensity of sunlight striking Earth's surface primarily through the angle at which sunlight reaches the ground. When the Sun is higher in the sky, such as during midday, sunlight strikes the Earth more directly, leading to greater intensity and warmth. Conversely, when the Sun is lower on the horizon, sunlight arrives at a more oblique angle, spreading its energy over a larger area and reducing intensity. This variation is also influenced by seasonal changes and geographical location.