The slide crack mechanism of a sports motorcycle is shown in Figure 1. The net force experienced by the vertically positions piston is 2257 N. Whereas, the piston has a diameter, and the stroke length is 100 mm and 120 mm, respectively. The linear velocity of the piston is 5.3 m/s and the angle between the line of action of the piston and the crack (OB) is 0 = 20°. 250 mm в 60 mm Figure 1: slide crack mechanism of a sports motor bicycle 1.1. If the mass of the piston is 1.1 kg and the force acting vertically downward on the piston due to the internal combustion in the cylinder is 5500 N, calculated gas pressure resulting from the combustion. 1.2. Create a vector diagram to calculate the speed of the crank if the piston speed is 5.3 m/s vertically downwards. 1.3. What is the acceleration of the piston?

The slide crack mechanism of a sports motorcycle is shown in Figure 1. The net force experienced by the vertically positions piston is 2257 N. Whereas, the piston has a diameter, and the stroke length is 100 mm and 120 mm, respectively. The linear velocity of the piston is 5.3 m/s and the angle between the line of action of the piston and the crack (OB) is 0 = 20°. 250 mm в 60 mm Figure 1: slide crack mechanism of a sports motor bicycle 1.1. If the mass of the piston is 1.1 kg and the force acting vertically downward on the piston due to the internal combustion in the cylinder is 5500 N, calculated gas pressure resulting from the combustion. 1.2. Create a vector diagram to calculate the speed of the crank if the piston speed is 5.3 m/s vertically downwards. 1.3. What is the acceleration of the piston?

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Forming and Shaping

Metal forming is a category of metalworking process through which the material can be given the desired shape and size by subjecting it to plastic deformation, where the component undergoes bulk deformation process upon application of loads. Unlike the shearing and machining process, the material does not undergo up to a failure point as indicated in the stress-strain curve. Hence, the stresses induced during the forming process are greater than yield strength but less than the failure strength of the material. The process does not lead to the loss of material, so it can be said to be an economical process. During forming, the material is subjected to tensile forces, compressive forces, bending, and shearing loading conditions. The material should possess the property of ductility to undergo the forming process.

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