A planet's distance from the Sun generally affects its average surface temperature, with closer planets typically receiving more solar radiation and, thus, being warmer. For example, Mercury, the closest planet to the Sun, has high temperatures during the day despite having a thin atmosphere. However, other factors, such as atmospheric composition and circulation, can also significantly influence a planet's temperature, leading to exceptions like Venus, which has a thick atmosphere that traps heat, resulting in extremely high surface temperatures despite being further from the Sun than Mercury.
The relationship between the planet's SPEED and its distance from the Sun is given by Kepler's Third Law.From there, it is fairly easy to derive a relationship between the period of revolution, and the distance.
The temperature determines the humidity.
No. "Negative correlation" means no relationship can be found between the two quantities. But in the case of the gravitational force, there is a definite, bullet-proof, mathematical connection between the distance and the force. Since a greater distance leads to a smaller force, the relationship is said to be "inverse", but the correlation is definitely not "negative".
There is no direct relationship between the rotation of a planet (which governs day length) and a planets distance from the sun. The nature of the planets spin is more to do with the formation of the system early on, by large impacts of the more numerous bodies that would have been around.
the planets
The average distance between oxygen molecules at Standard Temperature and Pressure (STP) is approximately 3.3 nanometers.
The general relationship between temperature and distance from the sun is that temperature decreases as distance from the sun increases. This is because the sun is the primary source of heat in our solar system, and objects farther from the sun receive less solar energy and are therefore colder.
The scale of a map shows the relationship between the map distance and real world distance. The average scale is one eighty-thousandth of the actual size.
The average speed of an object is calculated by dividing the total distance traveled by the total time taken. Therefore, there is a direct relationship between distance, time, and average speed. If the distance traveled increases while the time taken remains constant, the average speed will increase. Conversely, if the time taken to travel a certain distance increases, the average speed will decrease.
The relationship between temperature and light is that temperature affects the color and intensity of light. Light itself does not have a temperature because temperature is a measure of the average kinetic energy of particles in a substance, while light is a form of electromagnetic radiation.
The relationship between temperature and frequency is that as temperature increases, the frequency of a wave also increases. This is known as the temperature-frequency relationship.
um Long-distance relationship?
The relationship between the energy of a system and its temperature when the system is at 3/2 kb t is that the average energy of the system is directly proportional to the temperature. This relationship is described by the equipartition theorem in statistical mechanics.
scale
The relationship between thermal kinetic energy and the temperature of a substance is that as the thermal kinetic energy of the particles in a substance increases, the temperature of the substance also increases. This is because temperature is a measure of the average kinetic energy of the particles in a substance.
Yes, the square of the orbital period of a planet is proportional to the cube of the average distance of the planet from the Sun. This relationship is known as Kepler's Third Law of Planetary Motion. It describes the mathematical relationship between a planet's orbital period and its average distance from the Sun.
The relationship between elevation and climate has to do with temperature. The higher up the elevation is the colder the temperature is.