calculate the time period and orbital velocity of ISS using Newtonian mechanics.

Calculate the time period and orbital velocity using the Newtonian mechanics of ISS (International Space Station)....

Calculate the time period and orbital velocity using the Newtonian mechanics of ISS (International Space Station). h=420km

(a) Using elementary Newtonian mechanics find the period of a mass m 1in a circular orbit...

(a) Using elementary Newtonian mechanics find the period of a mass m 1in a circular orbit of radius r around a fixed mass m 2. (b) Using the separation into CM and relative motions, find the corresponding period for the case that m 2is not fixed and the masses circle each other a constant distance r apart. Discuss the limit of this result if m 2oo. (c) What would be the orbital period if the earth were replaced by a...

Problem: Predict/Calculate Problem 12.34 Part A Calculate the orbital period of a satellite that orbits at...

Problem: Predict/Calculate Problem 12.34 Part A Calculate the orbital period of a satellite that orbits at one Earth radii above the surface of the Earth. Express your answer to three significant figures and include appropriate units. Part C Calculate the orbital period of the satellite if the Earth’s mass were to double to 1.194×1025kg and everything else were to remain the same. Express your answer to three significant figures and include appropriate units. Express your answer to three significant figures...

3. Jupiter’s moon Callisto orbits the planet at a distance of 1.88x109 m. Callisto’s orbital period...

3. Jupiter’s moon Callisto orbits the planet at a distance of 1.88x109 m. Callisto’s orbital period about Jupiter is 16.7 days (in order to do that Callisto must have a velocity of 8,190 m/s). Use this to calculate the mass of Jupiter.

Using the below data and angular velocity equation, calculate angular velocity using time for one full...

Using the below data and angular velocity equation, calculate angular velocity using time for one full movement. Please show how the calculations are completed for the data below. Angular velocity is given. Need to see how it was arrived at. Data Collected: Joint Motion Participant 1 Participant 2 Range of motion (degrees) Limb length (m) Time (s) for 10 mvmts Range of motion (degrees) Limb length (m) Time (s) for 10 mvmts Shoulder abduction 165 (goniometer) 171.0 (Dartfish) .68m 0.3...

Calculate the Schwarzschild radius of a 3-M object. The orbital period and separation of the Cygnus...

Calculate the Schwarzschild radius of a 3-M object. The orbital period and separation of the Cygnus X-1 binary system are 5.6 days and 0.2 AU respectively. If the visible B-type supergiant has a mass of 19 M, what is the mass of the unseen companion. What is the Schwarzschild radius of the invisible companion?

Using the machinery of statistical mechanics calculate the internal energy (U), the function of Helmholtz (F),...

Using the machinery of statistical mechanics calculate the internal energy (U), the function of Helmholtz (F), Gibbs free energy (G), enthalpy (H) and specific heat of a quantum harmonic oscillator.

The orbital period of a satellite is 1 hr 34 min. It orbits at an altitude...

The orbital period of a satellite is 1 hr 34 min. It orbits at an altitude of 480 km above the Earth's surface. a) Determine the initial velocity in order to launch the satellite in that circular orbit. b) Find the speed of the satellite once its circular orbit has been achieved. Assume a uniform circular motion.

You are an astronaut, living for a long time interval in the International Space Station (ISS)....

You are an astronaut, living for a long time interval in the International Space Station (ISS). During your off-duty hours, you have run out of books to read and video games to play. So, your mind wanders to your hobby of music. The last book you read discussed Gauss's law, and you get an inspiration. You plan to attach two nonconducting spheres of radius r = 1.30 cm together using a light insulating string of length L and linear mass...

A clock is placed in a satellite that orbits Earth with an orbital period of 92...

A clock is placed in a satellite that orbits Earth with an orbital period of 92 min. By what time interval will this clock differ from an identical clock on Earth after 1 week? (Assume that special relativity applies and neglect general relativity.) The answer should be in seconds