I am in need of help with a full body diagram for the following question
Given that the mass of the sun and the earth are respectively 1.989*10^30 kg, and 5.972*10^24 kg and that the distance between them is 1.496*10^11 m. a) find the gravitational force of attraction between the sun and the earth. b) Find (i) in m/s and miles per hour, the speed (considered uniform) of the earth around the sun. c) find also in days, the period of the earth around the sun
I am in need of help with a full body diagram for the following question Given...
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...
A satellite of Earth is moving in a circular orbit with Earth at its center, at a constant speed of 2.00 km/s. a.) How high is the satellite above the surface of the Earth? b.) How long does it take for the satellite to complete one revolution? Helpful info (but not all of it is relevant!): universal gravitational constant G is = 6.674 x 10^-11 m^3/kg s^2 (units may also be expressed as N m^2/kg^2) Mass of Sun = 1.989...
I am in need of assistance with the answer and full body diagram for the following question a child riding a merry go round that has an instantaneous angular speed of 1.28 rad/s and an angular acceleration on 0.975 rad/s^2. the child is standing 2.85 m from the center of the merry go round. what is the magnitude of the linear acceleration of the child
I need help with these questions. 1. Calculate the force of graviational attraction between an SUV, mass-2000kg, and the Earth. 2. Calculate the gravitational field strength on the surface of Ganymede. How does this compare to the Earth? Our Moon? 3. Calculate the force of gravitational attraction between two carbon 16 atoms when theya re 1x10^-13 m apart. The mass of a proton or a neutron is 1.67x10^-27 kg, and the mass of an electron is 9.11x10^-31 4. Mary weighs...
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Problem 1. A block of mass m = 735 g is located on an incline which makes an angle of 40 with the horizontal The friction coefficient between the block and the incline is K = 0.21. The block is released and it is let slide down the incline. (a) Draw a free body diagram and identify all forces acting on the block. Find the acceleration of the block (b) If the block moves d = 0.42...
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...
1.) the first step of the scientific method is? 2.) A measure of inertia defines a quantity called? 3.) a simple version of reality is called? 4.)the maximum speed that a falling object can reach is called? 5.)groups of stars near the Polaris are called? 6.)An asteroid revolves around the sun once every 8 Years. Find the average distance in AU between the asteroid and the sun. 7.) convert 72 miles per hour into meters per second 8.) convert 50...
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Ch.5 -Circular Motion
6. According to Newton's Law of Gravitation, if the distance between two bodies is doubled, the attractive force between them becomes ( twice as large. Show reasoning: 0 half as large. four times as large. ( one quarter as large. 0 unchanged. fourt Kepler's third law can be simplified to T/r=1 or Tar if the orbit period T is expressed in earth years and...
1).In a uniform circular motion, instantaneous velocity is tangent to the circle a) True b) False c) Can's say 2).In a uniform circular motion, acceleration is normal to the velocity and directed toward the center a) True b) False c) Unknown 3). For a particle of mass 'm' moving with a uniform velocity 'v' in a circle of radius 'r', write the expression for centripetal force (Fc)? 4). If a particle rotates in a circle of radius r= 10 cm...
1). In a uniform circular motion, instantaneous velocity is tangent to the circle a) True b) False c) Can's say 2).In a uniform circular motion, acceleration is normal to the velocity and directed toward the center a) True b) False c) Unknown 3). For a particle of mass 'm' moving with a uniform velocity 'v'in a circle of radius 'r', write the expression for centripetal force (Fc)? 4). If a particle rotates in a circle of radius r = 10...