You are planning to send a probe on a distant planet. The probe will drop in...

In a galaxy far far away, an imperial probe is characterizing distant planets. The first planet...

In a galaxy far far away, an imperial probe is characterizing distant planets. The first planet has the probe orbiting with a period of 2.65days while orbiting the planet with an orbital radius of 1.05×10^8m. (a) What is the mass of this planet? The next planet takes the probe 5.92 days to orbit at an orbital radius of 2.25×10^8m. (b) What is the mass of this planet?

You are the science officer on a visit to a distant solar system. Prior to landing...

You are the science officer on a visit to a distant solar system. Prior to landing on a planet you measure its diameter to be 1.8×107m and its rotation period to be 22.3 hours . You have previously determined that the planet orbits 2.2×1011m from its star with a period of 382earth days. Once on the surface you find that the free-fall acceleration is 12.2m/s2. a) What is the mass of the planet? b)What is the mass of the star?

You are the science officer on a visit to a distant solar system. Prior to landing...

You are the science officer on a visit to a distant solar system. Prior to landing on a planet you measure its diameter to be 17000 km and its rotation period to be 22.8 hours. You have previously determined that the planet orbits 240000000 km from its star with a period of 500 Earth days. Once on the surface you find that the free-fall acceleration is 11.8 m/s22. What is the mass of the planet? What is the mass of...

1.You wish to send a probe to the Moon. The probe has a radio transmitter that...

1.You wish to send a probe to the Moon. The probe has a radio transmitter that you test in the laboratory. When the probe is 76 m from your receiver, the intensity is I0. When the probe is on the Moon, it sends radio waves to you. If you want to receive radio waves of the same intensity, how much stronger must the probe's electric field be when it is on the Moon? (Treat the radio transmitter as a point...

In the distant future, space explorers from earth discover a new planet. They can measure the...

In the distant future, space explorers from earth discover a new planet. They can measure the radius of the planet to be 7350 km, but they want to know its mass. They observe what the planet has a moon in a circular orbit 32,800 km above the surface of the planet. The moons orbit speed is 3.9 1 km/s. A) find the mass of the planet B) how much would a 65 kg person weigh on the surface of this...

Over a time interval of 1.71 years, the velocity of a planet orbiting a distant star...

Over a time interval of 1.71 years, the velocity of a planet orbiting a distant star reverses direction, changing from +17.6 km/s to -24.8 km/s. Find (a) the total change in the planet's velocity (in m/s) and (b) its average acceleration (in m/s2) during this interval. Include the correct algebraic sign with your answers to convey the directions of the velocity and the acceleration.

Your spaceship lands on an unknown planet. To determine the characteristics of this planet, you drop...

Your spaceship lands on an unknown planet. To determine the characteristics of this planet, you drop a 1.50 kg wrench from 7.00 m above the ground and measure that it hits the ground 0.811 slater. You also do enough surveying to determine that the circumference of the planet is 6.24×104 km . 1.) What is the mass of the planet, in kilograms? 2.) Express the planet’s mass in terms of the earth’s mass.

1. Planet X belongs to the planetary system of a distant star. The radius of Planet...

1. Planet X belongs to the planetary system of a distant star. The radius of Planet X was determined through direct observation by the exploration ship to be Rx = 7.22X103 km. An exploration team sent to the surface measured the gravitational acceleration to be gx = 10.6 m/s2. (a) Use the information given about Planet X to find its mass, Mx. (Explain every step) (b) The exploration ship orbits Planet X at an altitude of 1.70X10^3 km. What is...

Zero, a hypothetical planet, has a mass of 4.9 x 1023 kg, a radius of 2.8...

Zero, a hypothetical planet, has a mass of 4.9 x 1023 kg, a radius of 2.8 x 106 m, and no atmosphere. A 10 kg space probe is to be launched vertically from its surface. (a) If the probe is launched with an initial kinetic energy of 5.0 x 107 J, what will be its kinetic energy when it is 4.0 x 106 m from the center of Zero? (b) If the probe is to achieve a maximum distance of...

Zero, a hypothetical planet, has a mass of 6.0 x 1023 kg, a radius of 3.4...

Zero, a hypothetical planet, has a mass of 6.0 x 1023 kg, a radius of 3.4 x 106 m, and no atmosphere. A 10 kg space probe is to be launched vertically from its surface. (a) If the probe is launched with an initial kinetic energy of 5.0 x 107 J, what will be its kinetic energy when it is 4.0 x 106 m from the center of Zero? (b) If the probe is to achieve a maximum distance of...