Reference no: EM13703062
Scenario 1:
A group of neighbours in your area are fed up with a house of uni students who continue to have late night parties, disrupting the neighbourhood. You and your neighbours want to take action.
Scenario 2:
An influential customer of your business is complaining about the finish able to be achieved by the latest batch of paint you have produced. You think that the problem is being caused by the way his tradesmen are applying the paint. The customer is threatening to take action. You do not really want to be involved in a legal argument with the customer. How can this be solved.
Disputes occur at various stages throughout our lives. It is often how well we resolve these disputes that determines whether we will be successful, especially in our business lives.
The aim of this assignment is to help students understand that although litigation has its place in dispute resolution, there is a whole raft of alternative dispute resolution processes that are becoming increasingly useful in our legal system. The main alternative is mediation but as you can see there are others.
Students should be aware that there is not necessarily one correct answer when deciding which method to use when deciding a dispute. Your consideration of the issues for and against particular methods is the concentration for this assignment.
You will be given 2 scenarios to consider (read instructions below). For each scenario you are required to:
1. Choose 2 dispute resolution methods for each of your scenarios fromthe following list. Some of these are described in the Astor and Chinkin reading(some have been left out intentionally and some are also known by different names). Giving reasons relating their advantages and disadvantages found in your research, state which might be preferred for each particular scenario:
a. Litigation
b. Mediation
c. Expert Appraisal and Determination
d. Case Presentation
e. Conciliation
f. Arbitration
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Dispute resolution methods
: Choose 2 dispute resolution methods for each of your scenarios fromthe following list. Some of these are described in the Astor and Chinkin reading
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Determine the input power in watts
: A motor has a disk mounted on its shaft. The disk has a diameter of 1 foot and weighs 60 pounds. Starting from rest, the motor rotates at 350 rpm after 5 seconds. If the motor has a 92% efficiency, determine the input power in watts.
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Determine the pressure at the turbine exit
: A turbojet is flying with a velocity of 900 ft/s at an altitude of 20,000 ft, where the ambient conditions are 7 psia and 108F. The pressure ratio across the compressor is 13, and the temperature at the turbine inlet is 2400 R.
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Natural gas having a molar analysis
: Natural gas having a molar analysis of 60% methane (CH4) and 40% ethane (C2H6) enters a compressor at 340K, 6 bar and is compressed isothermally without internal irreversibilities to 20 bar. The compressor operates at steady state, the kinetic and po..
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Dispute resolution
: A group of neighbours in your area are fed up with a house of uni students who continue to have late night parties, disrupting the neighbourhood. You and your neighbours want to take action.
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A cylindrical pressure vessel
: A cylindrical pressure vessel of 120 in diameter outside, used for processing rubber, is 36 ft. long. If the cylinder portion of the vessel operates at 120 psi internal pressure, what are the stresses acting on an element at the inside surface of the..
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Determine the increase in internal energy
: Determine the increase in internal energy of 2 kg of argon if its temperature increases from 30C to 130C
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Draw the pressure vessel large enough to show orientation
: A cylindrical pressure vessel of 120 in diameter outside, used for processing rubber, is 36 ft. long. If the cylinder portion of the vessel operates at 120 psi internal pressure, what are the stresses acting on an element at the inside surface of the..
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Inner surface of a horizontal cylindrical duct
: Electronic components are mounted on the inner surface of a horizontal cylindrical duct whose inner diameter is 0.2 m, as shown in Fig. P6.96. To prevent overheating of the electronics, the cylinder is cooled by a stream of air flowing through it and..
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