Reference no: EM131348721 , Length: word count:1400
Present the following scenario:
Your client is a man in his 40s. He is confined to a wheelchair and requires attendance by a nurse 7 days a week due to respiratory and other medical conditions. He is a high-profile, outspoken, and controversial white supremacist; many people hate him. He has been scheduled to appear in court in his home city, Los Angeles, as a defendant to answer charges involving murder and violating civil rights. He is currently free on a $1 million bond; the local police are not providing any protection. In recent months, the city has been terrorized by a series of related homicides of white supremacist followers and the brutal beating of the client's assistant. The media have speculated that several victims have been linked to your client and the police suspect a rival white supremacist group is vying for political power in the movement. The police, however, have no direct evidence of that theory.
In attendance at the courthouse will be news organizations, fundamentalist religious groups, white supremacist groups, and civil rights groups, all picketing what promises to be a emotional trial. Security at the client's estate has been increased because of threats on his life, but your client likes to speak his mind to everyone, especially the press. He plans to make a grand entrance and wants to meet with the press on the courthouse steps. You are the head of a security detail of eight individuals for this day's work. You must plan the expedition from your client's home and back after the day in court, and security for the client's estate on the beach. The client's home is in Laguna Beach, about an hour's drive by freeway to the courthouse.
Prepare a 1,400-word planning and threat assessment paper dealing with the above scenario. The paper must reflect what you have learned. Be as specific as you can.
Comparing reformation theologians
: Review the textbook readings, presentations, and lectures notes reflecting on the positions of Martin Luther, John Calvin, and Richard Hooker. Construct your answer into the following 3 parts:
|
Determine the relative humidity
: Determine the relative humidity- The partial pressure of the water vapor.- The dew point.- The amount of water that must be added to or removed from the air in the room to achieve 40.0% relative humidity at the same dry bulb temperature.
|
Setting of bilateral precaution
: Consider the following setting of bilateral precaution. Bicyclists who ride at night can reduce the risk of getting hit by a car by wearing reflective vests. Drivers can reduce the risk of hitting a bicyclist by installing HID (High Intensity Di..
|
Where you will examine a film in terms of its larger context
: As the syllabus notes, this is "where you will examine a film in terms of its larger context -- its relation to the filmmaker's body of work and any familiar themes its genre.
|
Plan the expedition from your client home
: You must plan the expedition from your client's home and back after the day in court, and security for the client's estate on the beach. The client's home is in Laguna Beach, about an hour's drive by freeway to the courthouse
|
How much water must be removed per kg of dry air
: To what temperature must the incoming air-water vapor mixture be cooled to achieve a humidity ratio of 5.00 × 10-3 kg water per kg dry air?
|
Determine the heat removed by the cooling coil in btu
: Determine the amount of water removed per pound of dry air passing through the device.- The heat removed by the cooling coil in Btu/(lbm dry air).
|
Discuss article the case for contamination by anthony appiah
: Analyze and discuss the article "The Case for Contamination" by Kwame Anthony Appiah. For this essay, you will pick a position and give support for your argument using the Appiah article and at least two other scholarly sources.
|
Determine the humidity ratio and psychrometric enthalpy
: For the resulting mixture, determine the humidity ratio, psychrometric enthalpy, relative humidity, dry bulb temperature, wet bulb temperature, and dew point temperature.
|