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What happened to the intensity of solar energy as latitude increases?
decreases.
What happens when the entropy of the universe increases?
When the entropy of the universe increases, it means that the disorder or randomness within the universe is also increasing. This is in line with the second law of thermodynamics, which states that the total entropy of an isolated system can never decrease over time. As entropy increases, energy becomes less available to do work, and systems tend to move towards a state of equilibrium.
What happens as gravity increases the pressure on the matter within a star?
As gravity increases the pressure within a star, the core becomes more dense and the temperature rises. This increased pressure and temperature can trigger nuclear fusion reactions, where lighter elements like hydrogen fuse into heavier elements like helium, releasing energy in the process. This energy output helps counteract the gravitational force, maintaining the star's stability.
What happens to temperature in the thermosphere when altitude increases?
In the thermosphere, temperature increases with altitude due to the absorption of high-energy solar radiation by the sparse gas molecules present at that height. Despite this temperature increase, the thermosphere may feel very cold to us as the low density of molecules means that there is not enough matter to transfer heat efficiently.
What are the three factors that affect how much solar energy is received by various places on earth?
The three factors that affect how much solar energy is received by various places on Earth are latitude (distance from the equator), season (angle of sunlight), and cloud cover (obstruction of sunlight). These factors determine the intensity and duration of sunlight reaching a specific location.
What happened to the intensity of solar energy as latitude increases?
decreases.
What happens to the intensity of solar radiation as latitude increases?
As latitude increases, the intensity of solar radiation decreases. This is because the angle at which sunlight hits the Earth's surface becomes more oblique, leading to greater atmospheric absorption and scattering, which reduces the amount of solar energy that reaches the surface.
What happens to the intensity of solar energy as latitude increases 0 degrees to 90?
As latitude increases from 0 degrees to 90 degrees, the intensity of solar energy generally decreases. This is primarily due to the angle at which sunlight strikes the Earth; at lower latitudes (near the equator), sunlight hits the surface more directly, resulting in higher intensity. Conversely, at higher latitudes, sunlight arrives at a more oblique angle, spreading its energy over a larger area and reducing intensity. Additionally, atmospheric thickness and seasonal variations further affect solar energy intensity at higher latitudes.
What is the relationship between the intensity and energy of light?
The relationship between the intensity and energy of light is that the intensity of light is directly proportional to its energy. This means that as the intensity of light increases, so does its energy.
What happens to the intensity of a bright fringe when the wavelength of the light is increased?
It decreases. This is because the same amount of energy is distributed over a larger area (wavelength increases, so fringe spacing also increases). Energy per unit area decreases and this is why intensity decreases.
What happens to radiating intensity as distance increases?
As distance increases, the radiating intensity decreases because the same amount of energy is spread out over a larger area, resulting in lower intensity. This relationship follows the inverse square law, which means intensity is inversely proportional to the square of the distance from the source.
What happens to the energy of the electrons in the orbits as the radius of each orbit increases?
What happens to the energy of the electrons in the orbits of each orbit increases
What happens to the amplitude of the wave if the energy increases?
If the energy of a wave increases, the amplitude of the wave also increases. This is because amplitude is directly proportional to energy - as energy increases, more energy is imparted to the wave causing it to oscillate with greater magnitude.
What happens to an objects kinetic energy as its velocity increases?
Kinetic Energy increases as velocity increases. Kinetic Energy = 1/2 * Mass * Velocity2
What happens to kinetic energy if you move?
Increases.
What happens if you add energy to a wave?
Adding energy to a wave typically increases its amplitude, frequency, or speed. This can result in greater intensity or magnitude of the wave, ultimately causing it to travel with more force or reach higher peaks.
What happens to the particles in a longitutinal wave as the amplitude increases?
As the amplitude of a longitudinal wave increases, the particles in the medium experience larger displacements from their equilibrium positions. This results in higher compression and rarefaction regions in the wave, leading to an increase in the wave's intensity and energy.
