06:01Analyzing the Apollo 15 Feather and Hammer Drop - A Basic, Introductory Free-Fall ProblemFlipping Physics276views
11:30Gravitational Acceleration Physics Problems, Formula & EquationsThe Organic Chemistry Tutor619views
Multiple ChoiceYou stand on the surface of a mysterious planet with a mass of 6 ×1024 kg and measure the surface gravity to be 7 m/s2. What must the radius of the planet be?591views7rank
Multiple ChoiceHow far would you have to be above Earth's surface for g to be ½ of its surface value?584views5rank
Multiple ChoiceSuppose the lengths of your upper arm, forearm, and hand are 30 cm, 25 cm, and 15 cm, respectively. Using the information on centers of mass from Figure 7.31, calculate the torque from gravity on your arm (including the hand) when it is outstretched, horizontally.426views
Textbook QuestionA recently discovered extrasolar planet appears to be rockier and denser than earth. It is 16 times as massive as earth, but its diameter is only twice that of earth. What is the free-fall acceleration on the surface of this planet?830views
Textbook QuestionWhat is the free-fall acceleration at the surface of (a) the moon and (b) Jupiter?380views1rank
Textbook Question(a) At what height above the earth is the free-fall acceleration 10% of its value at the surface?452views
Textbook QuestionTitania, the largest moon of the planet Uranus, has 1/8 the radius of the earth and 1/1700 the mass of the earth. (b) What is the average density of Titania? (This is less than the density of rock, which is one piece of evidence that Titania is made primarily of ice.)961views
Textbook QuestionTitania, the largest moon of the planet Uranus, has 1/8 the radius of the earth and 1/1700 the mass of the earth. (a) What is the acceleration due to gravity at the surface of Titania?843views
Textbook QuestionThe mass of Venus is 81.5% that of the earth, and its radius is 94.9% that of the earth. (b) If a rock weighs 75.0 N on earth, what would it weigh at the surface of Venus?654views
Textbook QuestionThe mass of Venus is 81.5% that of the earth, and its radius is 94.9% that of the earth. (a) Compute the acceleration due to gravity on the surface of Venus from these data.1042views
Textbook QuestionAt what distance above the surface of the earth is the acceleration due to the earth's gravity 0.980 m/s^2 if the acceleration due to gravity at the surface has magnitude 9.80 m/s^2 ?1564views
Textbook QuestionYou decide to visit Santa Claus at the north pole to put in a good word about your splendid behavior throughout the year. While there, you notice that the elf Sneezy, when hanging from a rope, produces a tension of 395.0 N in the rope. If Sneezy hangs from a similar rope while delivering presents at the earth's equator, what will the tension in it be? (Recall that the earth is rotating about an axis through its north and south poles.)1474views1comments
Textbook QuestionAsteroid 253 Mathilde is one of several that have been visited by space probes. This asteroid is roughly spherical with a diameter of 53 km. The free-fall acceleration at the surface is 9.9 ✕ 10⁻³ m/s². What is the asteroid's mass?351views
Textbook QuestionSuppose we could shrink the earth without changing its mass. At what fraction of its current radius would the free-fall acceleration at the surface be three times its present value?280views
Textbook QuestionA starship is circling a distant planet of radius R. The astronauts find that the free-fall acceleration at their altitude is half the value at the planet's surface. How far above the surface are they orbiting? Your answer will be a multiple of R.214views
Textbook QuestionYou have been visiting a distant planet. Your measurements have determined that the planet's mass is twice that of earth but the free-fall acceleration at the surface is only one-fourth as large. (a) What is the planet's radius?292views
Textbook Question(I) What is the weight of a 74-kg astronaut (d) in outer space traveling with constant velocity?146views
Textbook Question(II) What is the apparent weight of a 75-kg astronaut 2800 km from the center of the Moon in a space vehicle (b) accelerating toward the Moon at 1.8m/s²? State “direction” in each case.131views
Textbook Question(II) Suppose the solid wheel of Fig. 11–42 has a mass of 260 g and rotates at 85 rad/s ; it has radius 6.0 cm and is mounted at the center of a horizontal thin axle 25 cm long. At what rate does the axle precess?<IMAGE>126views
Textbook Question(III) Two identical particles, each of mass m, are located on the x axis at x= +x₀ and x = -x₀.(b) At what point (or points) on the y axis is the magnitude of g a maximum value, and what is its value there? [Hint: Take the derivative dg/dy .]162views
Textbook QuestionThe rings of Saturn are composed of chunks of ice that orbit the planet. The inner radius of the rings is 73,000 km, and the outer radius is 170,000 km. Find the period of an orbiting chunk of ice at the inner radius and the period of a chunk at the outer radius. Compare your numbers with Saturn’s own rotation period of 10 hours and 39 minutes. The mass of Saturn is 5.7 x 10²⁶ .136views
Textbook QuestionJupiter is about 320 times as massive as the Earth. Thus, it has been claimed that a person would be crushed by the force of gravity on a planet the size of Jupiter because people cannot survive more than a few g’s. Calculate the number of g’s a person would experience at Jupiter’s equator, using the following data for Jupiter: mass = 1.9 x 10²⁷ kg, equatorial radius = 7.1 x 10⁴km , rotation period = 9 hr 55 mins . Take the centripetal acceleration into account.84views
Textbook QuestionA particle is released at a height r_E (radius of Earth) above the Earth’s surface. Determine its velocity when it hits the Earth. Ignore air resistance. [Hint: Use Newton’s second law, the law of universal gravitation, the chain rule, and integrate.]163views
Textbook QuestionThe Near Earth Asteroid Rendezvous (NEAR) spacecraft, after traveling 2.1 billion km, orbited the asteroid Eros with an orbital radius of about 20 km. Eros is roughly 40km x 6km x 6km. Assume Eros has a density (mass/volume) of about 2.3 x 10³ kg/m³ . (b) What would g be at the surface of a spherical Eros?123views