The centers of the Earth and its moon are separated by an average of 3.84 × 105 m and the moon’s mass is 7.35 × 1022 kg. What force does Earth’s moon exert on a 10 kg mass?
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The centers of the Earth and its moon are separated by an average of 3.84 × 105 m and the moon’s mass is 7.35 × 1022 kg. What force does Earth’s moon exert on a 10 kg mass?
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- The centers of the earth and its moon are separated by an average of 3.84 c 10^5 m and the moon's mass is 7.35 c 10^22 kg. What does Earth's moon exert on a 10 kg mass?An asteroid has a mass of m = 8.5 × 1012 kg and also has two rocket thrusters attached to it. One thruster supplies a force with x- and y- componentsF 1 = (8.0 × 107, 7.0 × 107) N while the other supplies a force with x- and y-components F 2 = (4.0 × 107, −2.0 × 107) N. (You may ignore the mass of the rocket thrusters and their fuel.)- What is the magnitude of the resultant force and in which direction does it act?An asteroid has a mass of m = 8.5 × 1012 kg and also has two rocket thrusters attached to it. One thruster supplies a force with x- and y- componentsF 1 = (8.0 × 107, 7.0 × 107) N while the other supplies a force with x- and y-components F 2 = (4.0 × 107, −2.0 × 107) N. (You may ignore the mass of the rocket thrusters and their fuel.) 1. Draw approximately to scale, a sketch of the 2 forces acting on the asteroid. Use the sketch to calculate (without calculation) the resultant force on the asteroid. 2. What is the magnitude of the resultant force - include it in your sketch. 3. Compare your answers from parts 1 and 2. Do the results agree? 4. At what distance from the Earth, in km, would the force calculated in parts 1-3 have the same magnitude as that due to gravitational attraction between the asteroid and the Earth? 5. What is the magnitude of the acceleration of the asteroid produced by the thrusters and in which direction does it act? 6. It the constant force calculated in parts…
- An asteroid of mass m = 8.5 × 1012 kg has two rocket thrusters attached to it. One thruster supplies a force with x- and y- componentsF 1 = (8.0 × 107, 7.0 × 107) N while the other supplies a force with x- and y-components F 2 = (4.0 × 107, −2.0 × 107) N. (You may ignore the mass of the rocket thrusters and their fuel.) Draw a sketch showing the two forces acting on the asteroid. Your sketch should be drawn (approximately) to scale. Use your sketch to estimate (without calculation) the resultant force on the asteroid. Include the resultant force on your sketch.An asteroid has a mass of m = 8.5 × 1012 kg and also has two rocket thrusters attached to it. One thruster supplies a force with x- and y- componentsF 1 = (8.0 × 107, 7.0 × 107) N while the other supplies a force with x- and y-components F 2 = (4.0 × 107, −2.0 × 107) N. (You may ignore the mass of the rocket thrusters and their fuel.) - Draw a sketch of the two forces acting on the asteroid (to scale if possible) - Use the sketch to calculate (without calculation) the resultant force on the asteroid. Include the resultant force in your sketch.An asteroid has a mass of m = 8.5 × 1012 kg and also has two rocket thrusters attached to it. One thruster supplies a force with x- and y- componentsF 1 = (8.0 × 107, 7.0 × 107) N while the other supplies a force with x- and y-components F 2 = (4.0 × 107, −2.0 × 107) N. (You may ignore the mass of the rocket thrusters and their fuel.) 1. What is the magnitude of the acceleration of the asteroid produced by the thrusters and in which direction does it act? 2. If the constant force acts in the same direction as the asteroids motion. calculate the time required to change the speed of the asteroid by 1.0ms-1 and therefore show that this is about 18 hours.
- The centers of the Earth and its moon are separated by an average of 3.84 × 105 m and the moon’s mass is 7.35 × 1022 kg. What force does Earth’s moon exert on a 10 kg mass? a) 3.32 × 10−5 N b) 3.32 × 10−4 N c) 1.28 × 10−5 N d) 1.28 × 10−4 NThe drawing (not to scale) shows one alignment of the sun, earth, and moon. The gravitational force FSM that the sun exerts on the moon is perpendicular to the force FEM that the earth exerts on the moon. The masses are: mass of sun = 1.99 × 10³0 kg, mass of earth = 5.98 × 1024 kg, mass of moon = 7.35 × 1022 kg. The distances shown in the drawing are rsM = 1.50 × 10¹1 m and rEM = 3.85 × 108 m. Determine the magnitude of the net gravitational force on the moon. Number i Sun Units ISM FSM FEM Earth Moon TEMDuring a solar eclipse, the Moon is positioned directly between Earth and the Sun. The masses of the Sun, Earth, and the Moon are 1.99 x 1030 kg, 5.98 × 1024 kg, and 7.36 x 1022 kg, respectively. The Moon's mean distance from Earth is 3.84 × 10 m, and Earth's mean distance from the Sun is 1.50 × 10'" is G = 6.67 x 10-1' N•m²/kg². m. The gravitational constant Find the magnitude F of the net gravitational force acting on the Moon during the solar eclipse due to both Earth and the Sun. 2.6 x1045 F = N Incorrect
- The earth has a mass of 5.98 × 1024 kg and the moon has a mass of 7.35 × 1022 kg. The distance from the centre of the moon to the centre of the earth is 3.84 × 108 m. A rocket with a total mass of 1200 kg is 3.0 × 108 m from the centre of the earth and directly in between the earth and the moon. Find the net gravitational force on the rocket from the earth and moon.A solar sailplane is going from Earth to Mars. Its sail is oriented to give a solar radiation force of FRad = 7.90 × 102 N. The gravitational force due to the Sun is 173 N and the gravitational force due to Earth is 1.00 × 102 N. All forces are in the plane formed by Earth, Sun, and sailplane. The mass of the sailplane is 14,000 kg. A) What is the magnitude of the net force acting on the sailplane? B) What is the direction of the net force acting on the sailplane?The gravitational force F→SM that the sun exerts on the moon is perpendicular to the force F→EM that the earth exerts on the moon. The masses are: mass of sun = 1.99 × 1030 kg, mass of earth = 5.98 × 1024 kg, mass of moon = 7.35 × 1022 kg. The distances shown in the drawing are rSM = 1.50 × 1011 m and rEM = 3.85 × 108 m. Determine the magnitude of the net gravitational force on the moon.