Question 1The slide crack mechanism of a sports motorcycle is shown in Figure 1. The net forceexperienced by the vertically positions piston is 2257 N. Whereas, the piston hasa diameter, and the stroke length is 100 mm and 120 mm, respectively. Thelinear velocity of the piston is 5.3 m/s and the angle between the line of action ofthe piston and the crack (OB) is 0 = 20°.250 mmB60 mmFigure 1: slide crack mechanism of a sports motor bicycle1.1. If the mass of the piston is 1.1 kg and the force acting vertically downward on the pistondue to the internal combustion in the cylinder is 5500 N, calculated gas pressureresulting from the combustion.1.2.Create a vector diagram to calculate the speed of the crank if the piston speed is 5.3m/s vertically downwards.1.3.What is the acceleration of the piston? Question 2A flywheel with a mass of 50 kg and a radius of gyration of 150 mm is connected to thecrankshaft of the engine mechanism shown in Figure 1. At the instance that theangular displacement of the crack 0 is 20° and the piston experience a net forceof 2257 N, determine:2.1.the angular acceleration of the flywheel,2.2.the kinetic energy of the flywheel after 10 seconds from the start.

**According to the guidelines we can answer only one question at time, please resubmit the other…

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°. %3D

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°. %3D

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

See similar textbooks

Similar questions

Solve 5,6
Two forces are applied to a flywheel 50 cm in diameter. Each force is 500 N. The shaft is fixed to the wall using three grade 5 steel bolts. The distance between the bolts and the axis of rotation is 10 cm. (a) What moment of resistance must develop the three bolts together Answer: 250 Nm (b) What is the resistance force F of each bolt? Answer: 833.3 N (c) What is the diameter of the bolts if their factor of safety is 10? Answer: 4.14mm
Two links are connected by a single pin and a tensile force F is applied. The links and the pin are made from Aluminum(sigma_y = 35ksi and T_y = 20ksi). The dimension of the link is 5 inch high by 0.5 inch thick. Find the optimal diameter for the pin and the maximum force,F that can be applied to the linkage before incuring permanent deformation.
Tutorial 4 A 70 mm diameter bar is found to contain a a crack which is located circumferentially 8mm deep around the outer surface, and penetrating 8 mm deep. The bar is subjected to cyclic stress which varies from 40 MN/m? to 100 70 mm dia. MN/m?. Given that Kic=60 MN/m3/2 for the same environment, determine whether the crack will propagate to the failure.
MECH.ENG. DESIGN 1 PART 2
A material, in region II of fatigue loading follows Paris relationship given byda/dN (m/cycle) = 1 x 10-8 (δK)2.2The stress range applied δσ = 100 MPa. The number of cycles required for a crack to grow from 2mm to 8mm will be 4723 cycles 3723 cycles 2723 cycles 1723 cycles
can you anser this question using figure 1? thank you.
i need the answer quickly
Q: In the stretching of round bar has 30 mm origin diameter, it turns out the following UPD=NPD and 6 = 173+109€0.31 MPa. Find: 1. The redundant work for stretching process. 2. The force and diameter at fracture point.
A bracket shown in Fig.(2) is fastened to the wall by four bolts equispaced on a (10 cm) diameter bolt circle. The bracket is subjected to a fluctuating force (0-50 N) . Find the forces acting on each bolt and then choose a suitable bolt size and a preload that will give minimum safety factor (1.5) for any mode of failure.
Please don't copy paste