The sun's energy spreads out the farther the distance from the sun.
When thermal energy increases and particles spread out, it causes an expansion in volume of the substance. This is because the increased thermal energy leads to more kinetic energy in the particles, causing them to move faster and spread out further from each other.
It depends on the specific context and the goal. Concentrated energy can be more effective for tasks requiring high intensity or precision, while spread out energy can be beneficial for tasks that require endurance or consistency over a longer period of time. Both types of energy have their own advantages and can be useful depending on the situation.
weather
The angle of incidence of the sun's rays affects temperature because it determines the intensity of solar energy reaching a specific area. When sunlight hits the Earth at a higher angle (closer to perpendicular), the energy is concentrated over a smaller area, leading to greater heating compared to when sunlight hits at a lower angle (more oblique), where the energy is spread over a larger area, resulting in less heating.
When heat energy is added to a substance, its particles gain more kinetic energy and move more vigorously. This increased motion can cause the particles to spread out, which leads to an increase in volume and a decrease in density of the substance.
yes
the distance away from the equator (further away = less of the suns energy), and also the amount of cloud and type of cloud in that location (more cloud reflects more of the suns energy away from that location).
If a suns ray hits an apple what energy would that be
nuclear fusion energy
They get energy from the suns light energy baby
1. The equator receives more of the Sun's energy. b. air near the equator is warmer.
The suns power is called Solar Energy. So to get the suns energy we use solar panels.
That sounds like a solar panel; more specifically, a photovoltaic panel.
they get it from the suns energy
In the Sun's core.
solar
the equator