Network architecture defines the building blocks of a network as phys.pdf

•

0 likes•2 views

Network architecture defines the building blocks of a network as physical or functional entities. Give examples of physical and functional entities that you would use as building blocks for a network. How docs each approach (physical and functional) differ? A network\'s architecture differs from its design, in terms of its scope, level of detail, description, and location information. Describe how an architecture and design differ in each characteristic. Give examples of external relationships between each of the following component architectures: addressing routing, network management, performance, and security. What are the differences between the LAN/MAN/WAN and Access/Distribution/Core architectural models? Under what conditions might each be applied to a network? Solution A network element is usually defined as a manageable logical entity uniting one or more physical devices. This allows distributed devices to be managed in a unified way using one management system. A network manager discovery returns many different types of entity ->Physical and logical entities, including devices and their physical and logical characteristics, such as slots, cards, ports, and interfaces, and the relationships between them. ->Protocol end points represent protocol or technology-specific information that is typically associated with an entity representing a port or interface resource. ->Device collections, including MPLS VPNs, global VLANs and subnets. ->Hosted services, including BGP and OSPF services hosted on a device. Clouds are used to represent networks external to the one pictured for the purposes of depicting connections between internal and external devices, without indicating the specifics of the outside network. For e.g., in the hypothetical local area network pictured to the right, three personal computers and a server are connected to a switch, the server is further connected to a printer and a gateway router, which is connected via a WAN link to the Internet. At different scales diagrams may represent various levels of network granularity. At the LAN level, individual nodes may represent individual physical devices, such as hubs or file servers, while at the WAN level, individual nodes may represent entire cities. In addition, when the scope of a diagram crosses the common LAN/MAN/WAN boundaries, representative hypothetical devices may be depicted instead of showing all actually existing nodes. For e.g., if a network appliance is intended to be connected through the Internet to many end-user mobile devices, only a single such device may be depicted for the purposes of showing the general relationship between the appliance and any such device. Computer network analysis, the architecture, and design have traditionally focused on capacity planning, which is the bandwidth required in the network to accommodate most short- and long-term traffic fluctuations. Network analysis helps us understand what problems we are trying to solve, and in the pr.

Education

through the Internet to many end-user mobile devices, only a single such
device may be depicted for the purposes of showing the general relationship
between the appliance and any such device. Computer network analysis, the architecture,
and design have traditionally focused on capacity
planning, which is the bandwidth required in the network
to accommodate most short- and long-term traffic fluctuations.
Network analysis helps us understand what problems we are trying to solve, and
in the process, we compile information that will be used in developing an architecture
and design.
Computer network architecture uses this information to develop a high-level, end-to-end
structure for the network. A network architecture develops the major network functions
for addressing/routing, network management, performance, security as architectural
components that will be brought together to form the network goals for
the architecture and sets of interactions, trade-offs, dependencies, and constraints
that will be used to optimize the architecture.

Similar to Network architecture defines the building blocks of a network as phys.pdf

1 presentation copy

Nikhil Mace

Lecture-03 - Introduction To Network.pptx

Md. Sakhawat Hossain

Summarize the purpose of a WAN and define what makes up a WAN connection. Detail the types of devices used to establish and maintain a WAN connection and list some of the more common WAN connection methods. Discuss the differences between WAN and LAN connections, and who is responsible for providing WAN connections. Discuss how a modem handles digital information over analog signals. Describe how to configure and setup remote access protocols. What factors need careful consideration? Solution Remote Access Protocols Remote access protocols square measure accustomed management the institution of connections and therefore the transmission of information over WAN links. 3 varieties of remote access protocols square measure supported by Windows Server 2003 remote access: Point-to-Point Protocol (PPP): AN industry-standard set of protocols providing the most effective security, multi-protocol support and ability. Serial Line net Protocol (SLIP): employed by older remote access servers. A Windows Server 2003 RAS server doesn\'t support SLIP dial-up connections. Microsoft remote access protocol: additionally called Asynchronous NetBEUI (AsyBEUI) and is employed by inheritance remote access purchasers, like Windows NT three.1, Windows for Workgroups, DOS and computer network Manager purchasers. LAN may be a electronic network that connects computers in tiny areas. WAN may be a network that covers a broad space victimization personal or public network transports. The terms {lan|local square measurea network|LAN|computer network} and WAN are usually confusing for those that aren’t that school savvy. These square measure each connections that permit users to attach their laptop to a network, as well as the web. computer network is brief for native space Network, whereas WAN is brief for Wide space Network. These 2 disagree from one another in distinct ways that. computer network may be a electronic network that connects computers in tiny areas like home, office, school, corporation, etc. employing a network media. it\'s helpful for sharing resources like printers, files, games, etc. A computer network network includes a few of laptop systems connected to every alternative, with one system connected to a router, electronic equipment or AN outlet for net access. The computer network network is made victimization cheap technologies like local area network cables, network adapters and hubs. However, alternative wireless technologies are obtainable to attach the pc through a wireless access. so as to put together a computer network network, an individual might also need specialised software system software system. the foremost widespread software system includes the Microsoft Windows’ net affiliation Sharing (ICS), that permits users to make computer network. distinction between computer network and WAN Key Difference: computer network may be a electronic network that connects computers in tiny areas. WAN may be a network that covers a broad space victimizat.

Summarize the purpose of a WAN and define what makes up a WAN connec.pdf

FOREVERPRODUCTCHD

Computer network

Anupan Jain

Learning Outcomes A Network of Networks Internet Define Computer Networks Define Communication State Importance of Computer network and communication Network classification Types of networks Comparison of different networks TCP/IP Hypertext Transfer Protocol Internet A network formed by the co-operative interconnection of a large no. of computer networks. Since Internet is formed by the interconnection of no. of networks, sometimes its also called as network of networks

A Network Of Networks For Slide Share

itsvineeth209

Introduction to computer networking

Sameer Sharma

Computer network

sana zaib

Exploration lan switching_chapter1

nixon

Chapter 6.0

Adebisi Tolulope

Ccna exploration network fundamentals

IT Tech

Networking

RajThakuri

Networking basic fundamental

Satish Sehrawat

The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.

The International Journal of Engineering and Science (The IJES)

theijes

Primch5cg

Saba Fatima

Network Fundamentals.pdf

Home

System Essential Report

Ankit Gupta, FRM

Basic Networking

lucita cabral

Network architecture - part-I

csk selva

Computer Network - Unit 1

Chandan Gupta Bhagat

1 introduction-to-computer-networking

Mayank Jain

Similar to Network architecture defines the building blocks of a network as phys.pdf (20)

1 presentation copy

Lecture-03 - Introduction To Network.pptx

Summarize the purpose of a WAN and define what makes up a WAN connec.pdf

Computer network

A Network Of Networks For Slide Share

Introduction to computer networking

Computer network

Exploration lan switching_chapter1

Chapter 6.0

Ccna exploration network fundamentals

Networking

Networking basic fundamental

The International Journal of Engineering and Science (The IJES)

Primch5cg

Network Fundamentals.pdf

System Essential Report

Basic Networking

Network architecture - part-I

Computer Network - Unit 1

1 introduction-to-computer-networking

More from AroraRajinder1

In class, we talked about all sorts of experiments. I would like to sum them up here. For each of the following, name and briefly describe an experiment that... (a)...demonstrates that light behaves like a wave. (b)...demonstrates that light behaves like particles. (c)...demonstrates that electrons behave like particles. (d)...demonstrates that electrons behave like a wave. Solution a) Young\'s Double-Slit Experiment A definitive experiment was Young\'s double slit experiment, which demonstrated that light shined at two slits in a screen show an interference pattern characteristic of waves of light, rather than particles. The principle behind this phenomenon is diffraction of light due to this any point source of light spreads and behaves like a light source. In the early 19th century, English scientist Thomas Young carried out the famous double-slit experiment (also known as Young\'s experiment), which demonstrated that a beam of light, when split into two beams and then recombined, will show interference effects that can only be explained by assuming that light is a wavelike disturbance. If light consisted strictly of ordinary or classical particles, and these particles were fired in a straight line through a slit and allowed to strike a screen on the other side, we would expect to see a pattern corresponding to the size and shape of the slit. However, when this single-slit experiment is actually performed, the pattern on the screen is a diffraction pattern in which the light is spread out. The smaller the slit, the greater the angle of spread.Similarly, if light consisted strictly of classical particles and we illuminated two parallel slits, the expected pattern on the screen would simply be the sum of the two single- slit patterns. In actuality, however, the pattern changes to one with a series of alternating light and dark bands. When Thomas Young first demonstrated this phenomenon, it indicated that light consists of waves, as the distribution of brightness can be explained by the alternately additive and subtractive interference of wavefronts. b) Photoelectric effect Experiment When light is shined on clean sodium metal in vacuum then ejection of electrons was observed. Analysis of data from the photoelectric experiment showed that the energy of the ejected electrons was proportional to the frequency of the illuminating light. This showed that whatever was knocking the electrons out had an energy proportional to light frequency. The remarkable fact that the ejection energy was independent of the total energy of illumination showed that the interaction must be like that of a particle which gave all of its energy to the electron! c) and d) Feynman\'s double-slit experiment In Feynman\'s double-slit thought-experiment, a specific material is randomly directed at a wall which has two small slits that can be opened and closed at will -- some of the material gets blocked and some passes through the slits, depending on which ones are open. Ba.

In class, we talked about all sorts of experiments. I would like to s.pdf

AroraRajinder1

Jane Lee was employed as a secretary at Burton Trucking. She was fired when she refused to perjure herself at a trial where her employer was the defendant. She filed a wrongful discharge lawsuit against her former employer. Ms. Lee will prevail if the state where the lawsuit was filed recognizes a public policy exception to the employment-at-will doctrine prevail only if she proves she was telling the truth will lose because the employment-at-will doctrine completely insulates the employer from liability will lose because her testimony provided the basis for a defamation lawsuit by her former employer will prevail under recent amendments to the Sarbonnes-Oxley Act Solution.

Jane Lee was employed as a secretary at Burton Trucking. She was fire.pdf

AroraRajinder1

If a function F) performs the following operations, what knd of cohesion does it have? If it has the optimal cohesion, explain why. If not, correct it. turn on a LED light; send a message to a remote computer; poll a sensor to get a reading; Solution Cohesion is the term which refers to the degree by which the various elements inside a function are related to each other. In the given list of operations, there is no clear relationship between any of the operations. Turning on the LED light and sending message to a remote computer can be assumed to be a form of signalling or notification. However, polling a sensor is clearly an input operation. Also each of the operations is independent. So, the cohesion in this function is weak. It can be categorized as the coincidental cohesion. It is the worst kind of cohesion. The operations are arbitrarily jammed into the same function without any relationship. The only relationship between them is that all of them are put into the same function. Therefore, the cohesion is weak. It is coincidental and not optimal. --------------------------------------------------------------------------------------------------------------------- - If you have any queries regarding this, please ask in the comments and I will make sure to help you with it..

If a function F) performs the following operations, what knd of cohe.pdf

AroraRajinder1

How would a subculture appear if a colony containing both S. Marcescens and M. Luteus was subcultures to a slant? How would a subculture appear if a colony containing both S. Marcescens and M. Luteus was subcultures to a slant? Solution The slant would show colonies of S marcescens and M luteus as red and yellow respectively. S marcescens is a gram negative rod shaped organism who has an unique feature of producing a red colour pigment called prodigiosin at room temperature. Whereas M luteus is a gram positive coccus shaped organism who produces yellow coloured carotenoid pigments anf grows slowly at room temperature..

How would a subculture appear if a colony containing both S. Marce.pdf

AroraRajinder1

Hint: Assume the binary tree is properly balanced (the depth of the tree T is O(log N)). For full credit, your algorithm should run in O(K+log N) average time, where K is the number of keys printed. Solution // Since the language is not specified, I\'m doing it in C++. // Assumption: structure of the tree node: /* struct Node{ int data; Node *left; Node *right; }; */ void method(Node *root, int k1, int k2){ if(root == NULL) return; method(root->left); if(root->data >= k1 && root->data <= k2) cout << root->data << \" \"; method(root->right); }.

Hint Assume the binary tree is properly balanced (the depth of the .pdf

AroraRajinder1

essay question: Explain how everyday life changes for slaves after emancipation. How did the agricultural system of labor change in the South? Specifically address why the following issues were important to freed slaves after the Civil War: marriages, families, names, travel, labor contracts, and work done by women and children. Solution The Emancipation Proclamation and the Union’s victory in the war secured the freedom of slaves, but with a society plagued by Jim Crow Laws and segregation, ex-slaves were far from liberated. Slaves paid the price for their freedom as emancipation introduced new hardships, insecurities, and humiliation. During the post Civil War and Reconstruction Era, a slave’s fight for freedom turned into a mere fight for survival. The majority of slaves were released from their previous plantations penniless. Wages for African Americans also fluctuated in response to the perceived worth of that person and manual labor was considered easily replaceable during the post Civil War time period. With income being an issue, few ex-slaves had the ability to own land. According to the 1880 Census, one-fifith of African Americans owned at least some of the land they farmed. However, these holdings were usually beset with debt, crippling African American owners in the long run. Johnson declared that, “Befo’ de war, niggers did have a place to lie down at night and somewhere to eat, when they got hungry in slavery time.” This prevalent poverty among ex-slaves during the Reconstruction Era resulted in a lack of nourishment and medical care which in turn caused a high mortality rate for African Americans, especially children. Illness left former slaves with the burden of unpaid medical bills or the inability to access proper medical care. Deficiencies caused African Americans to resort to the treatment of diseases with herbal and home remedies. The 1900 Census reveals 30 per 1,000 blacks died each year as opposed to only 17 per 1,000 whites. Death as a result of poverty was not the only thing that affected a slave’s life in the tough times of the post Civil War era. Ex-slaves were weakened by a severe sense of isolation brought on by separation from their families. Sales of slaves, the death of owners, and the presentation of slaves as gifts during the pre- Civil War era were only some of the reasons for this division. Alienation and loneliness dampened the spirit of these slaves’ new found freedom and made the fight to survive that much harder. As whites saw African Americans as an imposition on normality as well as a threat to their dominance, they continued to make former slaves work for their freedom. Johnson stated in his narrative that “Since them times, a many a nigger has had it tough to make a livin’. I know dat is so, too, cause I has been all long dere.” Johnson’s experiences, along with so many others, shed light on the darker side of emancipation after the Civil War..

essay question Explain how everyday life changes for slaves after e.pdf

AroraRajinder1

Detection versus recognition ... Investigate Face++ at Feel free to browse to other similar sites Explain the difference between face detection and face recognition. Give an example use of each in IT. Solution solution: Face detection is a program that determines the locations of human faces in a digital image. Face recognition is a program that identifies a person in a digital image. There are several notions that should be distinguished. Classification = partition of a set of observable objects into disjoint similarity classes (maybe, constituting a hierarchical structure). Detection = in a large set of objects finding out all those belonging to a certain similarity class. Recognition = for a given object answering, to what of (a priori defined) similarity classes it belongs. Identification = a particular case of recognition: proving that a given object really belongs to a similarity class being declared. Face detection aims at the detection/location of face in an image while Face recognition aims at identifying the face with some known faces. The best example for face detection is our Digital Cameras, you see a square over the faces, when taking photos. Face recognition is usually used in forensics to identify fugitives from street cameras... or something like that. face detection is an attempt to detect faces in an image (or video, I guess). Face detection software will typically provide the location and face size/orientation of each region of the image it feels is probably a face. In my experience, the results can be quite noisy. Depending on how the detection parameters are set, you may get many non-faces and will likely miss some/many faces (especially if they are partially obscured). Face recognition, on the other hand, attempts to identify a face in an image that is known (or thought to) contain a single face. Face detection may be applied first to extract image segments containing faces. A database of face data for individuals is needed, and the face recognition software will attempt to associate the provided image with one or more records in the database, typically with a probability that the faces match. Eigenfaces & Fisherfaces Those familiar with linear algebra will remember that every vector space has an orthogonal basis. By combining elements of this basis we can compose every vector in this vector space. And vice versa, every vector in the vector space can be decomposed to the elements of the basis. Images (grayscale) are nothing more than a series of numbers, each number corresponding to some intensity level. So why not treat images as vectors? Say, for example, we have a collection of face images of size 150 by 150 pixels; each of these images can be thought of as a vector of size 22,500 (150*150). We can now talk about the vector space in which these vectors reside. By treating the images as samples of data, we can perform a Principal Components Analysis and obtain the eigenvectors which make up the basis of the vector spa.

Detection versus recognition ... Investigate Face++ at Feel free to.pdf

AroraRajinder1

Dent disease is a rare disorder of the kidney in which reabsorption of filtered solutes is impaired and there is progressive renal failure. R. R. Hoopes and colleagues studied mutations associated with Dent disease in the following family (R. R. Hoopes et al. American Journal of Human Genetics 76:260-267, 2005). On the basis of this pedigree, what is the MOST likely mode of inheritance for the disease? Autosomal recessive X-linked recessive Autosomal dominant X- linked dominant Y-linked. Solution On the basis of pattern of inheritance of particuar traint, The answer is Autosomal recesseve..

Dent disease is a rare disorder of the kidney in which reabsorption o.pdf

AroraRajinder1

DEFINE: maternal determinant (3-4 sentences). Solution Maternal determinants are some types of molecules which are maternally supplied to the oocyte, the cell which produce fully grown organism, and the molecules regulate various processes by which the fate and developmental pattern of the oocyte is decided. Maternal transcription factors, Maternal signaling molecules, Maternal signaling pathway regulators are types of the biomolecules known as maternal determinants. Mitochondria, Nucleolus, and some Ribosomes also have maternal origin. VegT ( mRNA), Vg1 (mRNA), p53 (Protein), CREB (Protein), FGF2 (mRNA), Ectodermin (Protein), fatvg (mRNA) are some important maternal determinants..

DEFINE maternal determinant (3-4 sentences).SolutionMaternal .pdf

AroraRajinder1

Consider a partial function.For every unmapped element in its doma.pdf

AroraRajinder1

Compare and Contrast hollow core fibers for high power delivery and negative curvature hollow core fibers. Essay answers are limited to about 1000 words (3800 characters maximum, including double spaces). Compare and Contrast hollow core fibers for high power delivery and negative curvature hollow core fibers. Essay answers are limited to about 1000 words (3800 characters maximum, including double spaces). Solution NC-HCF:-NEGATIVE curvature hollow core optical fiber (NC-HCF) is a novel hollow core optical fiber (HCF) which has emerged over the last few years. NC-HCF is characterized by the inverted curvature of its core wall, and usually exhibits multiple spectral transmission bands of low attenuation. The simple structure of the fiber cladding allows flexible tailoring of NC-HCFs design and dimension for specific wavelengths and applications. Since their first appearance NC- HCFs have been applied in high power/ultrafast laser delivery and several other applications. This paper comprises eight sections:It consists of a brief history of NC-HCF, while the optics of NC-HCF will be discussed. From the guidance properties of NC-HCFs are collated and summarized including mode attenuation, bending loss, dispersion and nonlinearity. reviews some applications of NC-HCFs and contains conclusions. Hollow core negative curvature fibre (HC-NCF):Hollow core negative curvature fibre (HC-NCF) is another kind of leaky HCF, which features negative curvature of the core boundary The importance of curvature of the core boundary in HCF was firstly discovered in Kagome fibres by Wang et al. in 2010. A Kagome fibre with negative curvature of the core boundary exhibited an unexpected lower attenuation than regular ones. A series of subsequent experiments confirmed the function of the negative curvature core wall in the reduction of attenuation in Kagome fibres. Later in 2010 Gérôme et al. demonstrated that the complex structure of the cladding has a negligible effect on the confinement loss of Kagome fibre. At the same time, Vincetti and Setti numerically studied HC-NCF with a simplified cladding systematically and revealed that the coupling interaction between the core mode and cladding mode decides the high loss transmission spectral regions of HC-NCF. In 2011, Pryamikov et al. fabricated the first silica HC-NCF without lattice structure in the cladding. They demonstrated that light can be transmitted through a 63 cm length of silica fibre at 3 m wavelength even though. The fused silica exhibits very high material absorption in this spectral region. Afterwards, Kosolapov et al. extended the transmission window in a similar structured HC-NCF to 10.6 m for CO2 laser by using chalcogenide glass instead of silica as the fabrication material. In 2012 during the course of this thesis I designed, fabricated and characterised a silica HC-NCF with low loss transmission in the mid-infrared spectral region from 3 µm to 4 µm, with minimum attenuation of 34 dB/km at a wavele.

Compare and Contrast hollow core fibers for high power delivery an.pdf

AroraRajinder1

Can we create an object of type Interface Explain your answer.So.pdf

AroraRajinder1

Cancel Question Solution Since Descriptive statistics uses the data to provide descriptions of the population, either through numerical calculations or graphs or tables. Inferential statistics makes inferences and predictions about a population based on a sample of data taken from the population in question. So a) Is Descriptive b) is Descriptive c) is Inferential d) is Inferential e) is Descriptive f) is Descriptive.

Cancel QuestionSolutionSince Descriptive statistics uses the d.pdf

AroraRajinder1

According to the cladogram, what derived trait is shared by primates and rodents/rabbits? What is the correct term for the area labeled with a circle? What does it represent? What is the correct term for the earliest branch pictured in the cladogram (the one with the shark)? What does it represent? Solution PART1)According to the cladogram,hair trait is shared by primates and rodden rabbis......... PART2)IT represents they are reptiles.... PART3)IT represents it is the oldest organism...........

According to the cladogram, what derived trait is shared by primates .pdf

AroraRajinder1

A male Flagus fly with the Barkus phenotype is crossed with a female.pdf

AroraRajinder1

2015: Matthew and Michael Goode (cousins) decide to form a partnership (M&M) on April 1, 2015. Each contributed personally-owned assets to start the new company. Matthew Goode contributed $100,250 in cash and property with book value of $57,750 and appraised value of $78,750. Michael Goode contributed cash of $99,750; computer equipment with book value of $52,500 and appraised value of $21,000; a software library with book value of $63,000 and appraised value of $23,500; and office equipment with book value of $57,750 and appraised value of $26,250. M&M operates on a calendar year. The Articles of Partnership stipulate that no goodwill is to be recognized and that the two will start with capital balances equal to their contributions. Monthly cash draws of $1,350 each are allowed, beginning June 1, 2015. Net income is to be allocated as follows: (a)Matthew is to receive a compensation allowance of $2,625 per month for managing the day- to-day operations of the partnership. (b)Interest of 12.25% to be paid on ending balances of capital accounts, PLUS 15% interest on ending capital balances in excess of $262,500 (all interest to be calculated without current income allocation). (c)Each partner is to receive a bonus equal to 15% of net income, after the compensation allowance, interest, and bonuses. Negative bonuses are not allowed. (d)Remainder of profit to be allocated in a 55:45 ratio, Matthew:Michael. (e)Remainder of loss to be allocated in a 50:50 ratio. Net partnership income for 2015 was $210,000. 2016: June 1, 2016, Maxwell Goode (Matthew’s twin brother) joins the partnership (ThreeM). He purchases 1/3 of Matthew’s ownership interest for cash of $78,750 and 1/4 of Michael’s ownership interest for cash of $63,000, paid directly to the partners. The Articles of Partnership are amended as follows for allocation of net income: (a)In addition to Matthew’s compensation allowance, Michael will receive a compensation allowance of $1,575 per month, and Maxwell $1,260 per month. (b)Unchanged. (c)Matthew, Michael, and Maxwell are to receive bonuses of 12.5%, 12.5% and 10%, respectively, of net income after the compensation allowances, interest, and bonuses. Negative bonuses are not allowed. (d)Remainder of profit to be allocated in a 40:35:25 ratio, Matthew:Michael:Maxwell. (e)Remainder of loss to be allocated equally among the three partners. Net partnership income for 2016 was $262,500. 2017: Morgan (Michael’s younger brother) is admitted to the partnership (MM MM Goode) on January 2, 2017. He purchases a 32% interest for a cash payment of $260,000, paid directly to the partnership. The Articles of Partnership are amended as follows for allocation of net income: (a)Partners will receive the following compensation allowances per month: Matthew, $3,150; Michael, $2,625; Maxwell, $2.200; and Morgan, $2,000. (b)Unchanged. (c)Matthew, Michael, Maxwell, and Morgan are to receive bonuses of 12%, 12%, 10%, and 10%, respectively, of net income after the co.

2015Matthew and Michael Goode (cousins) decide to form a partners.pdf

AroraRajinder1

1. Jose is a Latino client who presents with occupational difficulties. He was laid off from a construction job 8 months ago and has been unable to find work. Ever since he lost his job, he has been drinking alcohol heavily throughout the day. He also reports “occasional” marijuana use. Jose recently was arrested for driving under the influence of alcohol and has to appear in court next month. His wife is angry with him because she depends on him to pick up their 3 children from school, and now he may lose his driver’s license. Jose has always been a hard worker, but he admits that there were times that he often drank alcohol while working on construction jobs to eliminate his stress. He reports having intermittent episodes of anxiety since adolescence. Based on the information provided, Jose’s principal diagnosis would likely be: A. Alcohol use disorder B. Cannabis use disorder C. Adjustment disorder with mixed anxiety and depressed mood D. Major depressive anxiety disorder Solution A. Alcohol use disorder Heavy drinking leads to \"alcohol use disorder.\" It is characterized by increased tendency to drink alcohol, inability to quit alcohol, neglecting the family responsibilities due to heavy drinking, anxiety, depression and alcohol withdrawal symptoms such as difficulty in sleeping, seizures, high blood pressure, etc..

1. Jose is a Latino client who presents with occupational difficulti.pdf

AroraRajinder1

You have a small business customer who wants to use a voice over IP (VoIP) system and subscribe to this service through his ISP using DSL. What special piece of equipment will need to be installed to provide analog-to-digital signal conversion between the phones and the digital network? A. A cable modem B. A DSL modem C. An Integrated access device (IAD) D. A multimedia terminal adapter (MTA) Solution a cable modem is anetwork bridge and modem connects bi-directional data communication radio frequncy channel on a hybrid fibar co axial and radio frequncy over glass infra structure. A digital subscriber line (DSL) modem is a device used to connect a computer or router to a telephone line which provides the digital subscriber line service for connectivity to the Internet. An Integrated Access Device (or IAD) is a customer premises device that provides access to wide area networks and the Internet. A multimedia terminal adapter (MTA), or Home Phone modem, operates much the same as a cable modem, but an MTA can deliver Home Phone service in addition to High Speed Internet. so answer is B. A DSL Modem.

You have a small business customer who wants to use a voice over IP .pdf

AroraRajinder1

Why can some microbial species grow and survive in extreme environments? Why can some microbial species grow and survive in extreme environments? Solution Microbial species grow and survive in extreme environments. These organisms are the extremophiles. There are different types of extremophiles: -Thermophiles and hyperthermophiles (organisms growing at high or very excessive temperatures, respectively) -psychrophiles (organisms that develop best at low temperatures) -acidophiles and alkaliphiles (organisms optimally tailored to acidic or fundamental pH values, respectively) -barophiles (organisms that develop quality underneath pressure) -halophiles (organisms that require NaCl for increase). The different types of extremophiles have exceptional adaptations that allow them to thrive mainly extremes. 1.Life at High Temperatures. Thermophiles have molecules and cell membranes that preserve their stability at excessive temperatures. As all cellular additives need to be made heat stable and their evolutionary function is derived of all recognized lifestyles. 2.Life at Low Temperatures and Extreme pH Levels. The molecules and membranes of psychrophiles are designed to maximise flexibility. Extremophiles that grow exceptional at pH extremes maintain a neutral pH inside their cells. 3.Life in a Brine and Other Environments. Halophiles ought to keep a balance between the solute concentration in their cells and their salty surroundings. Halophiles are able to live in salty conditions by preventing dehydration of their cytoplasm.a Radiation-resistant micro organisms adaptedto literally shatter its chromosome into hundreds of pieces. Some extreme barophiles grow optimally at pressures over 500 atmospheres. The transmembrane proteins in barophiles likely are modified to still function at high pressures..

Why can some microbial species grow and survive in extreme environ.pdf

AroraRajinder1

Which prokaryotic group maps most closely to the chlorophyll of plan.pdf

AroraRajinder1

More from AroraRajinder1 (20)