An astronaut has a pendulum made of 1.00 m long string and attached mass, which they let oscillate on Earth. They take their pendulum to an unknown planet with radius 71.5 x 10^3 km where the period of oscillation is 1.59 times shorter.
a) What is the frequency and period of oscillation of the pendulum on Earth?
b) What is the frequency and period of oscillation of the pendulum on unknown planet?
c) What is the gravitational acceleration of the planet?
d) What planet is the system on the surface of? Mercury (3.29 x 10^23 kg), Venus (4.87 x 10^24 kg), Earth (5.97 x 10^24 kg), Mars (6.39 x 10^23 kg), Jupiter (1.90 x 10^27), Saturn (5.68 x 10^26 kg), Uranus (8.68 x 10^25 kg), Neptune (1.02 x 10^26 kg)
An astronaut has a pendulum made of 1.00 m long string and attached mass, which they...
6.4
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Astronomical Data
4. Every planet (and moon) has its own acceleration due to gravity based on its mass and radius. Use the astronomical data in the back of the book for the following. A. What is the acceleration due to gravity on Venus? B. What is the acceleration due to gravity 'on' Uranus? (This is a gas giant so 'on' is relative.) Astronomical Data...
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Useful Planetary Data Mean Radius (m) 243 × 106 6.06 × 10° 6.38 × 10° 3.37 × 106 6.99×107 5.85 × 10' 2.33 × 107 221 × 107 1.14 × 10° 1.74 × 10° 696 × 108 Period (s) 7.60 × 106 1.94 × 107 3.156 × 10, 5.94 × 10' 3.74 × 108 9.35 × 108 2.64 × 109 5.22 × 109 782 × 109 Mean Distance from Sun (m) 579 × 100 1.08...
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retention 10.18 The following are the average distances of the planets in the solar system from the 25 Distance (millions of miles) 47.163 67.235 92.960 141.61 313.00 483.60 886.70 1783.0 2794.0 3666.0 Planet No. Planet Mercury Venus Earth Mars Asteroids Jupiter Saturn Uranus Neptune Pluto 4 10 (a)...
for future views please dont use it for spring 2020 Write a Perl program to accomplish each of the following on the file solar.txt (see link at the class homepage) 1. Print all records that do not list a discoverer in the eighth field. 2. Print every record after erasing the second field. Note: It would be better to say "print every record" omitting the second field . 3. Print the records for satellites that have negative orbital periods. (A...
A
satellite, which has a mass of 550kg and a radius of 2.20 meters is
orbiting the Earth at an altitude of 375 kilometers.
A)
What will be the magnitude of the graviton always force between
this satellite and the Earth?
B)
What must the velocity of this satellite be in order for the
satellite to remain in a stable orbit?
C)
What will be the magnitude of the centripetal acceleration of this
satellite?
D)
How long will it take...
A synchronous satellite, which always remains above the same
point on a planet's equator, is put in orbit around Mars so that
scientists can study a surface feature. Mars rotates once every
24.6 h. Use the data of this table to find the altitude of the
satellite. Please show how you figured this out step by step!
Useful Planetary Data Mean 10-19 ..3 Mean Distance Radius (m Mass (kg) Period (s) Body from Sun (m) 2.48 X 10 7.60 x...
1 (10 pts). In 1601 the German astronomer Johannes Kepler became director of the Prague Observatory. Kepler had been helping Tycho Brache in collecting 13 years of observations on relative motion of the planet Mars. By 1609, Kepler had formulated his first two laws of planetary motion: i. Each planet moves on an ellipse with the sun at one focus. ii. For each planet, the line from the sun to the planet sweeps out equal areas is equal times. Kepler's...
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the question is worth any points
a) The initial ratio of deuterium (D) to hydrogen (H) in a planet's atmosphere was 175000; however, the present ratio is 1/1500 and the initial and final abundances of D are 5 x 10° atoms per m3 and 9 x 106 atoms per m2, respectively. What fraction of deuterium has been lost, and what fraction of hydrogen has been lost in this...
Table 13.1 Solar system data (in SI units and relative to Earth) Orbit eccentricity Mass Equatorial radius semimajor axis period (a^) (years) 30 Sun 2.0 X 10 3.3 × 10 Mercury 3.30 X 1023 Venus 4.87 X 1024 Earth Mars Jupiter 1.90 x 1027318 Saturn 5.68 × 1026 95.2 Uranus 8.68 X 1014.5 Neptune 1.02 x 102617.1 Pluto 2.440 ×106 6.052 X 106 6.378 X 106 3.396 × 106 5.79×1010 1.082 x 1011 1.496 × 1011 2.279 ×1011 11.2 7.783...
Pluto -1.4 x 10 1.5 x 10 1.02 X 1 Moon 7.36 x 1022 1.991 x 1030 1.74 x 106 6.96 x 108 Sun -13 POINTS SERCP11 7.5.P.044. A 716-kg satellite is in a circular orbit about Earth at a height above Earth equal to Earth's mean radius. (a) Find the satellite's orbital speed. m /s (b) Find the period of its revolution. (c) Find the gravitational force acting on it. Need Help? Read it -18 POINTS SERCP9 7.P.031.MI.FB. A...