No. The period of revolution depends on the size of the orbit of the planet.
Neither. The time required for an object to complete an orbital trip around the sun depends only on its average distance from the sun, whether it happens to be a planet, an asteroid, a school bus, a comet, a feather, or a cloud of gas.
Galileo's pendulum experiment showed that the period of the swing is independent of the amplitude (size) of the swing. So the independent variable is the size of the swing, and the dependent variable is the period. The experiment showed there was no dependence, for small swings anyway. The experiment led to the use of the pendulum in clocks.
The "period of a planet" refers to the time it takes for that planet to complete one full orbit around its star. This is typically measured in Earth years or days, depending on the planet's distance from the star and its orbital speed. For example, Earth's orbital period is one year, while Mercury's is about 88 days. The period is influenced by gravitational forces and the characteristics of the orbit, such as its shape and size.
The Russian people (Russian: русские, russkiye) are an East Slavic ethnic group native to Russia,[35] speaking the Russian language and primarily living in Russia and neighboring countries.The English term Russians is also used to refer to the citizens of Russia, regardless of their ethnicity;[36] the demonym Russian is translated into Russian as rossiyanin(россиянин, plural rossiyane), while the ethnic Russians are referred to as russkiye (sg. русский, russkiy).According to the 2010 census, ethnic Russians make up about 81% of the population of Russia.[2]
The relationship between the size of an orbit and the time taken by a planet to orbit the sun is described by Kepler's Third Law of Planetary Motion. This law states that the square of the orbital period (the time taken to complete one orbit) of a planet is directly proportional to the cube of the semi-major axis of its orbit (the average distance from the sun). In simpler terms, the larger the orbit, the longer it takes for the planet to complete its revolution around the sun. Thus, planets farther from the sun take significantly longer to orbit compared to those closer in.
Neither. The time required for an object to complete an orbital trip around the sun depends only on its average distance from the sun, whether it happens to be a planet, an asteroid, a school bus, a comet, a feather, or a cloud of gas.
Hi Venus is the only planet that has the revolution period closest to that of the Earth. Venus with a revolution time of 224.7 Earth days. Venus is the brightest of all the planets in the solar system and is known as the Earth's twin sister due to the similarity between the two planets in terms of Size, mass etc.
Look for the one that is furthest away. The revolution period goes up with the size of the orbit to the 3/2 power, e.g. a planet at 4 AU distance from the Sun would take 8 years to go round because 8 = 4^(1.5) Saturn has an orbital radius of just under 10 AU and takes about 30 years to go round.
Galileo's pendulum experiment showed that the period of the swing is independent of the amplitude (size) of the swing. So the independent variable is the size of the swing, and the dependent variable is the period. The experiment showed there was no dependence, for small swings anyway. The experiment led to the use of the pendulum in clocks.
The Russian people (Russian: русские, russkiye) are an East Slavic ethnic group native to Russia,[35] speaking the Russian language and primarily living in Russia and neighboring countries.The English term Russians is also used to refer to the citizens of Russia, regardless of their ethnicity;[36] the demonym Russian is translated into Russian as rossiyanin(россиянин, plural rossiyane), while the ethnic Russians are referred to as russkiye (sg. русский, russkiy).According to the 2010 census, ethnic Russians make up about 81% of the population of Russia.[2]
There is no "typical" size for a planet, as they can vary greatly in size. However, Earth is considered an average-sized planet in our solar system.
size independent
No planet is exactly the size of Earth. Venus is close to Earth's size but slightly smaller.
There is no planet that has the same size moon as the planet. This is only possible if Pluto was still a planet.
If something is size dependent then some important aspect of that thing is influenced strongly by its size. If something is size independent, then its size does not influence any important aspect.
It is 8th largest on planet size after Mars.
Yes, the size of a planet can affect its period of rotation. Generally, larger planets tend to rotate more slowly than smaller planets over their axes due to differences in their gravitational forces and internal structures. This is known as the conservation of angular momentum.