College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Consider the three spherical objects traveling through the same region of air. Radius and speed values are stated. Given that everything else is equal, rank them according to the amount of air resistance they encounter. Object A Object B Object C R = 0.24 m v = 18 m/s R= 0.36 m R= 0.12 m v = 18 m/s v = 18 m/s Tap the fields below to rank the air resistance of Objects A, B, and C. Object A: Object B: Object C: Greatest Smallest Middlest Check Answer.arrow_forwardA 15.0 kgkg sphere is at the origin and a 5.00 kgkg sphere is at x� = 20 cmcm. Part A At what position on the x�-axis could you place a small mass such that the net gravitational force on it due to the spheres is zero? Express your answer with the appropriate units.arrow_forwardAn electron travels with v =5.90×10^6i^m/s through a point in space where E =(2.20×10^5i−2.20×10^5j^)V/m and B =−0.180k^T. What is the force on the electron? Express vector F in the form Fx, Fy, where the x and y components are separated by a comma.arrow_forward
- Asteroid 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. Part A What is the asteroid's mass? Express your answer with the appropriate units. μÅ M = 2.9.10²¹ kg ?arrow_forwardThe mass of the Sun is 2 × 10³⁰0 kg, and the mass of Mercury is 3.3 × 10²³ kg. The distance from the center of mass of the Sun to the center of mass of Mercury is 4.8 x 10¹⁰ m. a. Calculate the magnitude of the gravitational force exerted by the Sun on Mercury. b. What is the magnitude of the gravitational force exerted by Mercury on the Sun?arrow_forwardYou are the pilot of a spacecraft intended for travel at very high speeds. Before leaving you measure the spacecraft to be 31.4 m long and have a mass of 5.28 x 104 kg. During your travel, you pass a planet and exchange information with an observer on the planet. You are told that your spacecraft has been measured to be 28.6 m long. a. How fast is your spacecraft travelling with respect to the planet? b. You are told there is a nearby planet that is stationary with respect to the first planet. The observer on the first planet says it will take you 25 s to reach the nearby planet. How far away does your co-pilot on the spacecraft say the nearby planet is? c. How much energy was required to accelerate your spacecraft to this speed?arrow_forward
- You are given two point-like objects, known as M1 & M2. M1 has four times the mass of M2 and they are placed at a distance of d apart from each other. A. Can you sketch (in 2-dimensions) the gravitational field lines that are present in the region of space around the two masses. Show the direction of the field on the field lines. B. Explain quantitatively where you should place a test particle such that it experiences a net gravitational force of zero from the two point-like objects. Indicated this position on your diagram.arrow_forwardImagine that two identical containers, one filled with marbles and the other filled with Styrofoam beads, are released simultaneously from rest from the same height-s Earth's surface. (a) Which container, if either, experiences the greater gravitational force? O the container filled with marbles O the container filled with beads O Both containers will experience the same gravitational force. Justify your answer. O Since both containers fall to the ground with the same acceleration, both will experience the same gravitational force. O Gravitational force is directly proportional to mass, so the heavier container would experience the greater gravitational force. O Gravitational force is inversely proportional to mass, so the lighter container would experience the greater gravitational force. O Since the acceleration due to gravity is 9.8 m/s² for each container, both will experience the same gravitational force. (b) which container, if either, experiences the greater acceleration from…arrow_forward2-D star cluster puzzle Find the net gravitational force for v) A regular heptagon Let m=mass of the star = 1.99 x 10^30 kg, l=earth to star distance=149.6 x 10^6 km, G=6.67 x10^-11 N m^2/kg^2. Note that the masses of each star are the same. Also, it is advised to use vectors and components. And you can just find the gravitational net force of one of the stars in the shapearrow_forward
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