The values of gravitational acceleration at the surfaces of Jupiter, Pluto, and the sun are 23.12 m/s, 0.72 m/s", and 273.98 m/s, respectively. Determine your weight at each of these locations in both SI and US customary units. Assume no loss of mass results from the extreme conditions.
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- On Mars, the gravitational field constant is g = 3.7 N/kg. 1. When the object does encounter the atmosphere of Mars and reaches terminal velocity, what would the free-body diagram look like? Please label the forces involved.A 230-kg object and a 530-kg object are separated by 3.90 m. (a) Find the magnitude of the net gravitational force exerted by these objects on a 65.0-kg object placed midway between them. N (b) At what position (other than an infinitely remote one) can the 65.0-kg object be placed so as to experience a net force of zero from the other two objects? m from the 530 kg mass toward the 230 kg massIn the figure, a rectangular slab of slate rests on a bedrock surface inclined at angle = 25.6°. The slab has length L = 43.4 m, thickness T = 6.23 m, and width W = 13.6 m, and 1.0 cm³ of it has a mass of 3.2 g. The coefficient of static friction between slab and bedrock is 0.351. (a) Calculate the component of the gravitational force on the slab parallel to the bedrock surface. (b) Calculate the magnitude of the static frictional force on the slab. By comparing (a) and (b), you can see that the slab is in danger of sliding. This is prevented only by chance protrusions of bedrock. (c) To stabilize the slab, bolts are to be driven perpendicular to the bedrock surface (two bolts are shown). If each bolt has a cross-sectional area of 6.42 cm² and will snap under a shearing stress of 3.57 × 108 N/m², what is the minimum number of bolts needed? Assume that the bolts do not affect the normal force.
- (a) What happens to the gravitational force between two objects if their separation is doubled? (b) Two objects with masses of m,= 5 kg and m2= 8 kg are connected by a light string that passes over a frictionless pulley, as in figure. Determine (i) the acceleration of each object, (ii) the tension in the string and (iii) the distance each object will move in 0.8 s of motion if both objects start from rest. m2A 1000 kg rocket is drifting in space and it will crash into the surface of Venus. What is the gravitational force pulling the rocket into Venus when the rocket is 10^9km away from Venus? Assume the mass of the earth is 6 ×10^24 kg.Ch.4 #28 . Please see attached image for Physics question . Thank you
- During a balloon ascension, wearing an oxygen mask, you measure the weight of a 5.00-kg object and find that the value of the gravitational field strength at your location is 9.792 N/kg. How high above sea level, where the gravitational field strength was measured to be 9.804 N/kg, are you located? Mass of Earth is 5.974 × 1024 kg. km(a) Calculate the magnitude of the gravitational force exerted on a 486-kg satellite that is a distance of 1.70 earth radii from the center of the earth. (b) What is the magnitude of the gravitational force exerted on the earth by the satellite? (c) Determine the magnitude of the satellite's acceleration. (d) What is the magnitude of the earth's acceleration? (a) Number i Units (b) Number i Units (c) Number Units (d) Number i UnitsBecause the Earth rotates about its axis, a point on the equator experiences a centripetal acceleration of 0.033 7 m/s2, whereas a point at the poles experiences no centripetal acceleration. If a person at the equator has a mass of 75.0 kg, calculate (a) the gravitational force (true weight) on the person and (b) the normal force (apparent weight) on the person. (c) Which force is greater? Assume the Earth is a uniform sphere and take g = 9.800 m/s2.
- A mass m is suspended from a massless spring of natural length 90 cm with the spring constant k = 10 Nm and causes the spring to extend by 7.9 cm. Assuming the gravitational field strength g = 9.8 ms², calculate the value of the mass on the spring. Give your answer in Sl units. Answer: Choose... +Please answer all parts.Earth’s gravitational field strength at the surface is 9.80 N/kg. Determine the distance, as a multiple of Earth’sradius, rE, above Earth’s surface at which the magnitude of the acceleration due to gravity is 3.20 N/kg.