Orbital Speeds re = 6371 km
1.
Geostationary
satellites are used for telecommunications. They appear not to move in the sky.
However they do orbit the Earth with a period of 1 sidereal day. (23 hours
56m). There are two other conditions for the satellite to remain above one
point on Earth. Over the equator, East à West,
Geostationary
satellites orbit the earth at an altitude of 35 786km. Calculate their speed.
T = (23 x 60) + 56 min) = 1436 min x 60 sec =86160 s
r = height + re = 6371 +35786= 42157 x1000 m = 4.22 x107m
= (2 x 3.142 x 4.22 x107) / 86160 = 3074 ms-1
Similar
satellites orbit Mars at an altitude of 17 031 km. The length of a Martian day is similar to
that of the Earth, why are the altitudes so different? .
Mars has less mass than the Earth
Calculate
the speed of an Arestationary satellite. Tm = 88642.66 rm
= 3396.2 km. 1448 ms-1
2.
GPS
satellites orbit at a height of 20 200km. Their orbital period is 11h 58min
earth time (– their time is about 20 microseconds faster due to the
relativistic effects of their motion and the Earth’s mass bending space-time).
Calculate their orbital speed. 3900 ms-1
3.
NASA’s
Mercury messenger probe orbited the planet at an altitude of 201 km, (rm
= 2.44 x 106m) with a period of 5.75 x 103 s Calculate
its speed. 2900 ms-1
4.
Complete
this table
Distance from Sun (106 km) |
Orbital Period (days) |
T (Years) |
Orbital Speed m/s |
|
57.9 |
88 |
0.241096 |
48 000 |
|
108.2 |
224.7 |
0.615616 |
35 000 |
|
149.6 |
365.2 |
1.000548 |
30 000 |
|
227.9 |
687 |
1.882192 |
24 000 |
|
778.6 |
4331 |
11.86575 |
13 000 |
|
1433.5 |
10747 |
29.44384 |
9700 |
|
2872.5 |
30589 |
83.80548 |
6800 |
|
4495.1 |
59800 |
163.8356 |
5500 |
|
5870 |
90588 |
248.1863 |
4700 |
5.
There
are 5 planets orbiting the star tau Ceti (12 light years away and similar to
our sun although it’s slightly cooler, 5344K compared to 5778K ) The planets
are called a,b,c,d e&f.
Tau
Cati F orbits at 1.35 AU from the star. (1AU = 150 million km) with a period of
1.76yrs. Calculate its orbital speed. 22 000 ms-1
(Assuming that
Tau Ceti f is a terrestrial planet, it would likely be at least 2.3 times
larger in size than the Earth. With an Earth-like atmosphere, the surface
temperature would be approximately −40°C (233 K). With a denser atmosphere able
to produce a stronger greenhouse effect it could have a much higher
temperature, between 0°C and 50°C, enough for complex life to exist.)
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