Show the complete solution. Put notes on steps. The wooden block (mass m = 0.6165 kg) is released from rest at A by a compressed spring (compressed length 0.6 m, undeformed length 1 m, spring constant k = 150 N/m). The block is allowed to slide through the rough horizontal surface (A to B), then along the smooth circular ramp (B to C, central angle 0 = 45°, until the block is released after point C. Calculate the speed of the block at points B and C. Also, what is the magnitude of the normal force exerted to the block just before the block leaves the ramp? Neglect the geometry of the block.NOTE: Use Work-Energy Method to solve for the speeds; use Force-Mass-Acceleration (FMA) Method to compute for the normal f

Show the complete solution. Put notes on steps. The wooden block (mass m = 0.6165 kg) is released from rest at A by a compressed spring (compressed length 0.6 m, undeformed length 1 m, spring constant k = 150 N/m). The block is allowed to slide through the rough horizontal surface (A to B), then along the smooth circular ramp (B to C, central angle 0 = 45°, until the block is released after point C. Calculate the speed of the block at points B and C. Also, what is the magnitude of the normal force exerted to the block just before the block leaves the ramp? Neglect the geometry of the block.NOTE: Use Work-Energy Method to solve for the speeds; use Force-Mass-Acceleration (FMA) Method to compute for the normal f

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter8: Centroids And Distributed Loads

Section: Chapter Questions

Problem 8.88P: Compute the surface area of the axi-symmetric domed structure.

See similar textbooks

Similar questions

Please evaluate the shape factor and answer part c)
Answer is hL = 17.6m
Why is the area t(2a-y) and why is Ybar=(2a+y)/2. Don’t need the solution. Thanks
21 - A vertical cylindrical vessel with a diameter of 15 cm and a height of 40 cm is partially filled with 25 cm high water. The cylinder is rotated at a constant speed of 20 rad/s. What is the maximum height difference between the edge and the center of the free surface? a) 11.5cm B) 15cm NS) 5.4cm D) 9.5cm TO) 7.2cm 22 - The water level in a tank is 9.4 m above the ground. At the bottom of the tank, the sprinkler connected to the pipe end faces upwards. The effective pressure at the water surface inside the tank is 300 kPa. Since the system is at sea level, how high does the water coming out of the fountain rise? (ρ=1000 kg/m³) a) 48 meters B) 25m NS) 30m D) 40m TO) 20m
DIRECTION: Identify the following term. 1. It can be applied to a body as distributed or concentrated surface loadings, or as body forces that act throughout the volume of the body.
Determine the volume and total surface area of the bush shown in the figure.
-4°C ice weighing 300 g was placed on a glass that has a diameter of 6 cm. Determine the depth of the melted ice. Assume ambient temperature of 27°C. ANSWER: 10.61 cm
Q4(1).State the salient features of the Pakistan Environmental Protection Act (PEPA) 1997.
A solid block having the same horizontal cross-section when immersed in water leaves 20 cm height above the water level and 14 cm when immersed in oil (s.g = 0.85). What is the height of the solid block in cm. Answer in whole number
Determine the theoretical field capacity when a tractor operating at 6.4 kph is pullingfour-36 cm moldboard plow bottoms at a depth of 20 cm.
The round handle of a faucet is affixed to a shaft that lets a valve to be open and closed every time the round handle is rotated. Give the radius of the handle if the shaft has a diameter of 1 cm and the MA of the machine is 8.
Please give me the solution for the given answer: Ans. 7.88 m/s