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Keplers law (as we shall see can be generalised to p sa'ns, for the period in...
In Lecture 4, we discussed Kepler’s third law relatingthe orbital period of a planet (p) to...
In Lecture 4, we discussed Kepler’s third law relatingthe orbital period of a planet (p) to the semi-major axis (orbital distance, a) of its orbit(p2= a3). We can apply this law as long the object orbits the Sun or another object of the same mass, and the units of orbital period are in (Earth) years and the orbital distance is in Astronomical Units(AU). [1AU is equal to the distance between the Earth and the Sun]. [Note: Newton extended this law...
6. Using Nowton's version of Kepler's Third Law (15 points). a) (5pt) Compute the semimajor the...
6. Using Nowton's version of Kepler's Third Law (15 points). a) (5pt) Compute the semimajor the mass of the Sun from the fact that the Earth's orbital period is 1 year and axis is 1 AU. Assume that the mass of the Earth is much smaller than the mass of the Sun. Is this assumption justified? pt) Compute the orbital period of a cubesat orbiting the Earth at an altitude of 400 km above the Earth's surface. c) (5pt) Estimate...
Question 2: When written as P? -a Kepler's 3rd Law (with P in years and a...
Question 2: When written as P? -a Kepler's 3rd Law (with P in years and a in AU) is applicable to .. a) ) any object orbiting our sun. ) any object orbiting any star. c) any object orbiting any other object. We were unable to transcribe this image
use keplers 3rd law to determine the mass of the sun. that is the equation we...
use keplers 3rd law to determine the mass of the sun. that is
the equation we derived in class which states that the orbital
period squared is proportional to the orbital radius cubed. you can
tell if you got the right answer by looking it up on wikipedia-sear
for sun.
Keplers third law:
Where T is the period and r is the distance between the
satellite and the much larger mas.
Distance from the Earth to the sun = 1.5*10^11...
A black hole is an object with mass, but no spatial extent. It truly is a...
A black hole is an object with mass, but no spatial extent. It truly is a particle. A black hole may form from a dead star. Such a black hole has a mass several times the mass of the Sun. Imagine a black hole whose mass is fifty-seven times the mass of the Sun. Would you expect the period of an object orbiting the black hole with a semimajor axis of 1 AU to have a period greater than, less...
In recent years, scientists have discovered hundreds of planets orbiting other stars. Some of these planets...
In recent years, scientists have discovered hundreds of planets orbiting other stars. Some of these planets are in orbits that are similar to that of earth, which orbits the sun (Msun = 1.99 × 1030 kg) at a distance of 1.50 × 1011 m, called 1 astronomical unit (1 au). Others have extreme orbits that are much different from anything in our solar system. The following problem relates to one of these planets that follows circular orbit around its star....
According to Kepler's third law, there is a relation between the period of one revolution for...
According to Kepler's third law, there is a relation between the period of one revolution for the satellite, the semimajor axis length of the Moon, and its mass. By applying this law, find the Moon's mass, in Kg, while the orbital period of this motion is 50,000 s and the semi-major axis of the Moon is equal to 5 m. (Round your answer to the nearest whole number)
For the following, quote your numerical answers to two significant figures: a) A binary system consists...
For the following, quote your numerical answers to two significant figures: a) A binary system consists of two stars orbiting a common center of mass. Star A is a white star of mass MA = 2.02Mo, where Mo = 1.989 x 1030 kg is the mass of the Sun. Its companion, Star B, is a white dwarf with mass Mg = 0.978M. The orbital period of the two objects is observed to be t = 50.09 years. What is the...
All questions please 101. The mass of the Earth is almost 6.0x104 kg, and the average...
All questions please
101. The mass of the Earth is almost 6.0x104 kg, and the average radius is about 6400 km. A satellite with a mass of 70 Kg is orbiting at an altitude of 600 km. Calculate the acceleration with which the satellite is falling on Earth. a. 5.7x10 m/s b. 5.7x10 m/s c. 5.7x10° m's d. 5.7x10 m/ e. 5.7x10m/s 102. The mass of the Earth is almost 6.0x 10* kg, and the average radius is about 6400...
Kepler’s Third Law indicates that the Period (P) of an orbit is related to the semi-major...
Kepler’s Third Law indicates that the Period (P) of an orbit is related to the semi-major axis (a) of the orbit with: P 2 = ka3 . Kepler noticed that the value of the constant k changes when we observe systems with different central objects. This means that the orbits of all of the planets in the Solar System have the same value for k, but that value is different for the Moon because all of the planets orbit the...
6. Using Nowton's version of Kepler's Third Law (15 points). a) (5pt) Compute the semimajor the mass of the Sun from the fact that the Earth's orbital period is 1 year and axis is 1 AU. Assume that the mass of the Earth is much smaller than the mass of the Sun. Is this assumption justified? pt) Compute the orbital period of a cubesat orbiting the Earth at an altitude of 400 km above the Earth's surface. c) (5pt) Estimate...
Question 2: When written as P? -a Kepler's 3rd Law (with P in years and a in AU) is applicable to .. a) ) any object orbiting our sun. ) any object orbiting any star. c) any object orbiting any other object. We were unable to transcribe this image
use keplers 3rd law to determine the mass of the sun. that is
the equation we derived in class which states that the orbital
period squared is proportional to the orbital radius cubed. you can
tell if you got the right answer by looking it up on wikipedia-sear
for sun.
Keplers third law:
Where T is the period and r is the distance between the
satellite and the much larger mas.
Distance from the Earth to the sun = 1.5*10^11...
A black hole is an object with mass, but no spatial extent. It truly is a particle. A black hole may form from a dead star. Such a black hole has a mass several times the mass of the Sun. Imagine a black hole whose mass is fifty-seven times the mass of the Sun. Would you expect the period of an object orbiting the black hole with a semimajor axis of 1 AU to have a period greater than, less...
According to Kepler's third law, there is a relation between the period of one revolution for the satellite, the semimajor axis length of the Moon, and its mass. By applying this law, find the Moon's mass, in Kg, while the orbital period of this motion is 50,000 s and the semi-major axis of the Moon is equal to 5 m. (Round your answer to the nearest whole number)
For the following, quote your numerical answers to two significant figures: a) A binary system consists of two stars orbiting a common center of mass. Star A is a white star of mass MA = 2.02Mo, where Mo = 1.989 x 1030 kg is the mass of the Sun. Its companion, Star B, is a white dwarf with mass Mg = 0.978M. The orbital period of the two objects is observed to be t = 50.09 years. What is the...
All questions please
101. The mass of the Earth is almost 6.0x104 kg, and the average radius is about 6400 km. A satellite with a mass of 70 Kg is orbiting at an altitude of 600 km. Calculate the acceleration with which the satellite is falling on Earth. a. 5.7x10 m/s b. 5.7x10 m/s c. 5.7x10° m's d. 5.7x10 m/ e. 5.7x10m/s 102. The mass of the Earth is almost 6.0x 10* kg, and the average radius is about 6400...
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