Maximum allowable space for the system

In summary, the maximum allowable space for the system is a height of h = 250 mm, the piston speed should not exceed 15 m/s, and the maximum allowable angular motion of the crankshaft is 2500 rpm. A graph is needed to show the velocity of the piston with respect to the angular position of the crankshaft at maximum angular velocity, to ensure that the speed of the piston does not exceed the maximum allowable speed. If you believe this is not possible, please provide your reasoning and evidence. Please note that we are not allowed to provide direct solutions or tell you how to solve your homework problem according to the PF rules. You must provide relevant equations and show your work for someone to check your math.
  • #1
mutiny
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The maximum allowable space for the system is with the height of h = 250 mm,the speed of the piston is expected not to exceed 15 m/s, while the maximum allowable angular motion of the crankshaft is to be 2500 rpm. Please provide a graph showing the changes of the velocity of the piston with respect to the change of the angular position of the crankshaft at maximum angular velocity to show that the velocity of piston not exceed the maximum allowable speed at maximum angular velocity.
if you think this is not achievable, please provide your rationales with the necessary proofs.


P/s:i would like to know how we know the speed or the angular motion is not fit the system.
 
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  • #2
mutiny: The PF rules state we are not allowed to tell you how to approach or solve your homework problem. See the required homework template that appears when you start to create a new thread in the homework forums. You must list relevant equations yourself, and show your work; and then someone might check your math.
 

What is the maximum allowable space for the system?

The maximum allowable space for a system depends on various factors such as the type of system, its purpose, and the available resources. It is usually determined during the initial design phase and can be adjusted based on the system's requirements.

Why is it important to consider the maximum allowable space for the system?

The maximum allowable space for a system is crucial for ensuring its proper functioning and efficiency. It helps in determining the size and layout of the system, as well as the placement of components and equipment. It also ensures that the system can be easily maintained and upgraded in the future.

How is the maximum allowable space for the system calculated?

The maximum allowable space for a system is typically calculated by considering the dimensions and weight of the components, as well as any necessary clearance and ventilation requirements. It may also take into account the potential for future expansions or upgrades.

Can the maximum allowable space for the system be exceeded?

In some cases, the maximum allowable space for a system may be exceeded if there is a valid reason or if it is approved by the relevant authorities. However, exceeding the maximum allowable space may result in additional costs and potential performance issues.

How can the maximum allowable space for the system be optimized?

The maximum allowable space for a system can be optimized by carefully considering the design and layout of the system. This may involve using compact or modular components, utilizing vertical space, and minimizing unnecessary clearances. Regular maintenance and upgrades can also help optimize the use of the available space.

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