![4.12pt] Calculate, using Newtons law of gravity, the magnitude of the force of attraction between the Moon and a mass of 33.](http://img.homeworklib.com/questions/a3b3da00-6f65-11ea-ab03-f1ec59eda237.png?x-oss-process=image/resize,w_560)
Ive had 2 people help me with this before but it was incorrect both
timesHomework Answers
Using Newtons law of gravity, F = Gm1m2/r^2
= 6.67e-11*33000*7.36e22/376000e3^2
= 1.146 N answer
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Ive had 2 people help me with this before but it was incorrect both
times
4.12pt]...
need #4 & #5!!! 4. Calculate, using Newton's law of gravity, the magnitude of the force...
need #4 & #5!!!
4. Calculate, using Newton's law of gravity, the magnitude of the force of attraction between the Moon and a mass of 33.000 kg on the Earth's surface nearest the Moon. The distance to the Moon from surface of the Earth is 376.000 km. The mass of moon is 7.36 x 10 kg Gravitational constant G = 6,67 x 10 Nm/ky? Answer: Submit Al Answers Last Answer: 4.76x10^21 m Not yet correct, tries 0/20 5. 12pt] The...
need help with 4 and 5!!! 4.2pt] Calculate, using Newton's law of gravity, the magnitude of...
need help with 4 and 5!!!
4.2pt] Calculate, using Newton's law of gravity, the magnitude of the force of attraction between the Moon and a mass of 33.000 kg on the Earth's surface nearest the Moon The distance to the Moon from surface of the Farth is 376.000 kr. The masomocnis 7.36 10.ke. Gravitational constant G=6.57 x 10 m eg? r Last Answer: 1.14 x 10N Answers Su Not yet correct, tries 2/20 Hint: The Si wywiem of units uses...
2. [2] A mass m 8.100 ky is suspended from a string of length vertical (in...
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019 (part 1 of 2) 10.0 points On the way to the moon, the Apollo astro- nauts reach a point where the Moon's gravi- tational pull is stronger than that of Earth's. Find the distance of this point from the center of the Earth. The masses of the Earth and the Moon are 5.98 x 1024 kg and 7.36 x 1022 kg, respectively, and the distance from the Earth to the Moon is 3.84 x 108 m. Answer in units...
I need some help with these final problems please! 9. (a) Find the centripetal acceleration on...
I need some help with these final problems please!
9. (a) Find the centripetal acceleration on a 2000 kg car travelling with a speed of 25 mph around a curve of 35 m. A banked curve makes an angle of 30° with the horizontal. Find the centripetal acceleration of this banked curve. (b) 10. (a) Find the force of attraction between the earth and the sun using the Newton's law of Universal Gravitation and the following: Mass of the earth...
Learning Goal: To understand Newton's law of gravitation and the distinction between inertial and gravitational masses....
Learning Goal: To understand Newton's law of gravitation and the distinction between inertial and gravitational masses. In this problem, you will practice using Newton's law of gravitation. According to that law, the magnitude of the gravitational force Fg between two small particles of masses m1 and m2 separated by a distance r, is given by m1m2 T2 where G is the universal gravitational constant, whose numerical value (in SI units) is 6.67 x 10-11 Nm2 kg2 This formula applies not...
4. Using the Newton's law of gravitation and weight information, Compute the mass of the Earth...
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please help Resources Give Up? Efendi Consider a 455 kg satellite in a circular orbit at...
please help
Resources Give Up? Efendi Consider a 455 kg satellite in a circular orbit at a distance of 3.06 x 10 km above the Earth's surface. What is the minimum amount of work W the satellite's thrusters must do to raise the satellite to a geosynchronous orbit? Geosynchronous orbits occur at approximately 3.60 x 10 km above the Earth's surface. The radius of the Earth and the mass of the Earth are Re 6.37 x 10 km and Me...
Consider a 455 kg satellite in a circular orbit at a distance of 3.06 x 10...
Consider a 455 kg satellite in a circular orbit at a distance of 3.06 x 10 km above the Earth's surface. What is the minimum amount of work W the satellite's thrusters must do to raise the satellite to a geosynchronous orbit? Geosynchronous orbits occur at approximately 3.60 X 10 km above the Earth's surface. The radius of the Earth and the mass of the Earth are Re = 6,37 x 10 km and Me = 5.97 x 10 kg,...
Consider a 455 kg satellite in a circular orbit at a distance of 3.02 x 104...
Consider a 455 kg satellite in a circular orbit at a distance of 3.02 x 104 km above the Earth's surface. What is the minimum amount of work W the satellite's thrusters must do to raise the satellite to a geosynchronous orbit? Geosynchronous orbits occur at approximately 3.60 x 104 km above the Earth's surface. The radius of the Earth and the mass of the Earth are Re = 6.37 % 10% km and Me = 5.97 x 1024 kg,...
need #4 & #5!!!
4. Calculate, using Newton's law of gravity, the magnitude of the force of attraction between the Moon and a mass of 33.000 kg on the Earth's surface nearest the Moon. The distance to the Moon from surface of the Earth is 376.000 km. The mass of moon is 7.36 x 10 kg Gravitational constant G = 6,67 x 10 Nm/ky? Answer: Submit Al Answers Last Answer: 4.76x10^21 m Not yet correct, tries 0/20 5. 12pt] The...
need help with 4 and 5!!!
4.2pt] Calculate, using Newton's law of gravity, the magnitude of the force of attraction between the Moon and a mass of 33.000 kg on the Earth's surface nearest the Moon The distance to the Moon from surface of the Farth is 376.000 kr. The masomocnis 7.36 10.ke. Gravitational constant G=6.57 x 10 m eg? r Last Answer: 1.14 x 10N Answers Su Not yet correct, tries 2/20 Hint: The Si wywiem of units uses...
2. [2] A mass m 8.100 ky is suspended from a string of length vertical (in degrees)? 1.150 m. It revolves in a horirontal circle (see Figure). The tangential speed of the mass is 2.403 ... What is the angle theta between the string and the 3.12pt] Calculate, using Newton's law of gravity, the magnitude of the force of attraction between the Earth and a mass of 33.000 kg on the Earth's surface. The distance to the center of the...
019 (part 1 of 2) 10.0 points On the way to the moon, the Apollo astro- nauts reach a point where the Moon's gravi- tational pull is stronger than that of Earth's. Find the distance of this point from the center of the Earth. The masses of the Earth and the Moon are 5.98 x 1024 kg and 7.36 x 1022 kg, respectively, and the distance from the Earth to the Moon is 3.84 x 108 m. Answer in units...
I need some help with these final problems please!
9. (a) Find the centripetal acceleration on a 2000 kg car travelling with a speed of 25 mph around a curve of 35 m. A banked curve makes an angle of 30° with the horizontal. Find the centripetal acceleration of this banked curve. (b) 10. (a) Find the force of attraction between the earth and the sun using the Newton's law of Universal Gravitation and the following: Mass of the earth...
Learning Goal: To understand Newton's law of gravitation and the distinction between inertial and gravitational masses. In this problem, you will practice using Newton's law of gravitation. According to that law, the magnitude of the gravitational force Fg between two small particles of masses m1 and m2 separated by a distance r, is given by m1m2 T2 where G is the universal gravitational constant, whose numerical value (in SI units) is 6.67 x 10-11 Nm2 kg2 This formula applies not...
4. Using the Newton's law of gravitation and weight information, Compute the mass of the Earth in Kilograms. Radius of the earth is 6370 km, Gravitational constant G = 6.67 x 10-11 m/kg s2
please help
Resources Give Up? Efendi Consider a 455 kg satellite in a circular orbit at a distance of 3.06 x 10 km above the Earth's surface. What is the minimum amount of work W the satellite's thrusters must do to raise the satellite to a geosynchronous orbit? Geosynchronous orbits occur at approximately 3.60 x 10 km above the Earth's surface. The radius of the Earth and the mass of the Earth are Re 6.37 x 10 km and Me...
Consider a 455 kg satellite in a circular orbit at a distance of 3.06 x 10 km above the Earth's surface. What is the minimum amount of work W the satellite's thrusters must do to raise the satellite to a geosynchronous orbit? Geosynchronous orbits occur at approximately 3.60 X 10 km above the Earth's surface. The radius of the Earth and the mass of the Earth are Re = 6,37 x 10 km and Me = 5.97 x 10 kg,...
Consider a 455 kg satellite in a circular orbit at a distance of 3.02 x 104 km above the Earth's surface. What is the minimum amount of work W the satellite's thrusters must do to raise the satellite to a geosynchronous orbit? Geosynchronous orbits occur at approximately 3.60 x 104 km above the Earth's surface. The radius of the Earth and the mass of the Earth are Re = 6.37 % 10% km and Me = 5.97 x 1024 kg,...
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