Ch 17 book: Project Management

Question 1

A project

Answer 1

work designed to accomplish a specific objective (deliverable) in a limited time frame

unique, multi-person, large, one-time work

Question 2

A program

Answer 2

a set of projects

Question 3

project performance goals that all projects are expected to achieve

Answer 3

to be completed within time/schedule

cost and budget

quality and scope guidelines

Question 4

what happens when, during the execution of a project one of the performance goals (schedule, cost, quality), becomes unacceptable?

Answer 4

one or both of the other performance goals should be adjusted (traded off) to bring the project on track

Question 5

the project management triangle

Answer 5

A model of the three opposing performance goals or constraints of project management

–> schedule, cost, quality

shows that they should be traded off

Question 6

project phases or stages

Answer 6

initiating the project (conception, feasibility study, etc.)

planning and scheduling

execution

monitoring

controlling

closing

Question 7

In an organization, who is usually a project initiator or sponsor?

Answer 7

a senior manager or vice-president

Question 8

the project scope

Answer 8

The major document used in project initiation

the work that needs to be accomplished to deliver the specified objective

Question 9

project portfolio selection

Answer 9

Deciding which projects to implement

Question 10

what factors does project portfolio selection involve?

Answer 10

budget

availability of personnel with appropriate knowledge and skill

cost benefit considerations

financial benefits

Question 11

steps for project selection

Answer 11

1. Establish a project council

–> ex: the executive committee

2. Identify some project categories and criteria

–> ex: long-term vs. short-term, minor vs. major)

–> ex: business value, customer satisfaction, process effectiveness, employee satisfaction

3. Collect project data.
4. Assess resources availability.
5. Prioritize the projects within categories
6. Select projects to be funded
7. Communicate the results to stakeholders and provide the reasons for selection or non selection of each project

Question 12

work breakdown structure (WBS)

Answer 12

breaking the job down into smaller components

A hierarchical listing of the components of a project

Question 13

project-based organizational structure

Answer 13

companies that have a lot of projects and its basically their business

A type of organizational structure where a company’s departments and personnel are organized around each particular project

Question 14

what type of project organization do most companies use?

Answer 14

a matrix organization

Question 15

a matrix organization

Answer 15

temporarily groups together specialists from different departments to work on special projects

Question 16

project management office (PMO)

Answer 16

a group or department within an organization

defines and maintains standards for project management within the organization

Question 17

the project manager

Answer 17

the person responsible for:

planning a project

scheduling a project

executing a project

controlling a project

meeting the project’s requirements

ensuring completion on time, within budget, and to the required quality standards

Question 18

who bears the ultimate responsibility for the success or failure of the project?

Answer 18

The project manager

Question 19

Project planning

Answer 19

further elaboration of the project scope (the work to be done)

includes:

breaking the project down into smaller components

planning for risk management

estimating the required resources for the activities

estimating costs

budgeting

human resource planning

project scheduling

quality

communications

purchases

Question 20

Quality planning in a project

Answer 20

determining how project quality is to be assured and controlled

Question 21

Communications planning in a project

Answer 21

determining the nature of information needed by stakeholders and how to satisfy these needs

Question 22

Purchase planning in a project

Answer 22

determining what to purchase

determining the statement of work or the specification of the item

determining supplier evaluation and selection

determining the award of contract

Question 23

The probability of occurrence of risk events in a project is highest when?

Answer 23

near the beginning of a project

Question 24

The probability of occurrence of risk events in a project is lowest when?

Answer 24

near the end of a project

Question 25

the cost associated with risk events tends to be lowest when?

Answer 25

near the beginning of a project

Question 26

the cost associated with risk events tends to be highest when?

Answer 26

near the end of a project

Question 27

The first step for risk management planning

Answer 27

identify the risk

Question 28

risk register

Answer 28

stores the list of risks and other information obtained

Question 29

Once risks have been identified in a project, what must be done?

Answer 29

each risk must be evaluated to determine its probability of occurrence and the potential consequences if it does occur

Question 30

possible risk responses (things to lower the impact of risk)?

Answer 30

Redundant (backup) systems

Using a less complex process or a more stable supplier

Frequent monitoring of critical project aspects

Transferring risks

Risk-sharing

Extending the schedule, creating contingency funds, reducing project scope, clarifying the requirements, obtaining information, and improving communication

Question 31

the steps of work breakdown structure (WBS)

Answer 31

1. to identify the major components of the project
2. to identify the major sub-components for each of the major components
3. if necessary each major sub component may be broken down further

etc

Question 32

work package

Answer 32

A group of related tasks within a project

The smallest unit of work that a project can be broken down to
when creating your work breakdown structure

Question 33

activity

Answer 33

Another name for a work package in a project

Question 34

the major rule when it comes to work packages and activities?

Answer 34

the bottom of the WBS should be small enough that it can be done by a subcontractor in a few days or weeks

Question 35

The work packages or activities in the bottom of the WBS are used for what?

Answer 35

planning

including developing time and cost estimates

Question 36

Project scheduling

Answer 36

determining the start and end times of activities and work packages in the work breakdown structure (WBS)

any sequential dependencies of pairs of activities and work packages should be identified

the resources needed for each activity and work package should be identified

Question 37

A schedule Gantt chart

Answer 37

used at the end of project scheduling

used as a visual aid for scheduling and control of the activities and work packages

for simple projects

Question 38

advantages of a schedule Gantt chart

Answer 38

a visual tool

simplicity

Question 39

disadvantages of a schedule Gantt chart

Answer 39

fails to reveal relationships among activities/work packages that can affect the performance of work

Question 40

what is used instead of a schedule Gantt chart in more complex projects?

Answer 40

a precedence network

Question 41

two of the most widely used tools for scheduling and control of large-scale projects

Answer 41

program evaluation and review technique (PERT)

critical path method (CPM)

Question 42

program evaluation and review technique (PERT)

Answer 42

A technique used for scheduling and control of large projects

managers can obtain a graphical display of project activities/work packages and their sequential relationship

managers can obtain an estimate of how long the project will take

managers can obtain indication of which activities/work packages are most critical to timely project completion

managers can obtain indication of how long any activity/work package can be delayed without delaying the project

Question 43

critical path method (CPM)

Answer 43

A technique used for scheduling and control of large projects

managers can obtain a graphical display of project activities/work packages and their sequential relationship

managers can obtain an estimate of how long the project will take

managers can obtain indication of which activities/work packages are most critical to timely project completion

managers can obtain indication of how long any activity/work package can be delayed without delaying the project

Question 44

Precedence Network

Answer 44

One of the main features of PERT/CPM

depicts project activities/work packages and their sequential relationships by use of arrows and nodes

Question 45

the two precedence network conventions

Answer 45

activity-on-arrow (AOA)

activity-on-node (AON)

Question 46

activity-on-arrow (AOA)

Answer 46

the original precedence network convention

the arrows designate activities

Question 47

activity-on-node (AON)

Answer 47

the new precedence network convention

the nodes designate activities

has a start node

only has one ending node

Question 48

A path in a precedence network diagram

Answer 48

A sequence of activities/ work packages that leads from the start node to the end node

they reveal sequential relationships

Question 49

importance of sequential relationships in a precedence network diagram

Answer 49

If one activity in a sequence is delayed (i.e., is late) or is done incorrectly, all of the following activities/work packages on that path will be delayed

Question 50

importance of the length of a path in a precedence network diagram

Answer 50

can be determined by summing the expected duration of the activities on it

Question 51

the most important path in precedence network diagram

why?

Answer 51

the critical path (the longest path)

it governs the project completion time

expected project duration equals the expected duration of the longest path

if there are any delays along the longest path, there will be corresponding delays in the project completion time

Question 52

Attempts to shorten project completion must focus on the activities/work packages on which precedence network path?

Answer 52

the critical path (the longest path)

Question 53

the critical path in a precedence network diagram

Answer 53

The longest path from start to end

determines the expected project du ration

Question 54

criticaI activities

Answer 54

Activities on the critical (longest) path

Question 55

path slack time

Answer 55

the allowable slippage for any path in a precedence network diagram

reflects the difference between the length of the path and the length of the critical path

Question 56

how much slack time does the critical path have?

Answer 56

none bruv

Question 57

The main determinant of the way PERT/CPM networks are used

Answer 57

whether activity/work package durations are proballistic or deterministic

Question 58

probabilistic durations

Answer 58

if durations are subject to random variation

Question 59

deterministic durations

Answer 59

If durations are fairly certain

Question 60

four values for each activity when using PERT/CPM for extremely large (more realistic) precedence networks

what can we find after the four values have been found?

Answer 60

ES (the earliest time the activity can start)

EF (the earliest time the activity can finish)

LS (the lαtest time the activity can start and not delay the project)

LF (the latest time the activity can finish and not delay the project)

we can find:

1. the expected project duration
2. Activity slack times
3. The critical path

Question 61

The earliest finish time for any activity/work package formula

Answer 61

EF = ES + t

EF: the earliest time the activity can finish

ES: the earliest time the activity can start

t: the expected activity duration

Question 62

two basic rules to calculate the earliest start and finish times for each activity

Answer 62

1. EF = ES + t

2. ES of the following node = EF of the node in question

Question 63

two basic rules to calculate the lates start and finish times for each activity

Answer 63

1. LS = LF - t

2. LS of the following now = LF of the node in question

Question 64

Activity slack time

definition and calculation

Answer 64

the amount of time that an activity can be delayed without causing a delay in the project completion date

Activity slack time = LS - ES or LF - EF

Question 65

is the slack time for one activity the same for the total path if the following activity has the same slack time?

Answer 65

yeee

f two activities are both on the same path and have the same slack, this will be the total slack available to both

Question 66

the three-point estimation method

Answer 66

The probabilistic PERT/CPM approach

involves three duration estimates for each activity/work package instead of one

Question 67

the three duration estimates in the the three-point estimation method

Answer 67

1. Optimistic duration
2. Pessimistic duration
3. Most likely duration

Question 68

Optimistic duration in the the three-point estimation method

Answer 68

The length of time under the best conditions

represented by “to”

Question 69

pessimistic duration in the the three-point estimation method

Answer 69

The length of time under the worst conditions

represented by “tp”

Question 70

most likely duration in the the three-point estimation method

Answer 70

The most probable length of time

represented by “tm”

Question 71

The Beta distribution

Answer 71

a family of continuous positive distributions

used to describe the inherent variability of an activity/work package’s duration

can be symmetrical or skewed to either the right or the left depending on its shape parameters

the mean and variance of the distribution can be readily obtained from the three-point estimation method

shape parameters can be chosen so that the distribution is unimodal with a high concentration of probability surrounding the most likely dura也 t10n estimate

Question 72

The expected duration of an activity using the three-point estimation method

formula and meaning

Answer 72

te = (to + (4)tm +tp) / 6

te: the average or expected duration for each activity/work package
to: optimistic duration
tm: realistic duration
tp: pessimistic duration

Question 73

The standard deviation of each activity’s duration using the three-point estimation method

formula and meaning

Answer 73

estimated as one-sixth of the difference between the pessimistic and optimistic estimates

σ^2 = ((tp - to)^2) / 36

The size of the variance reflects the degree of uncertainty associated with an activity/work package’s duration

The larger the variance, the greater the uncertainty

Question 74

the standard deviation of the duration of a pαth

formula and meaning

Answer 74

σpath = [E(Variances of activity durations on path)]^(1/2)

Question 75

the central limit theorem

Answer 75

using the three-point estimation method, it states that a path’s duration is approximately a Normal distribution (after doing beta distributions for activities and shit)

Question 76

the formula to determine the probability that a given path will be completed in a specified length of time

Answer 76

z =

Specified length of time - Expected path duration
/
(Standard deviation of path duration)

Question 77

what does a negative z value indicate when we want to find the probability that a given path will be completed in a specified length of time?

Answer 77

indicates that the specified time is earlier than the expected path duration

it means there are less chances that this happens

Question 78

how to calculate the probability that the project will be completed by the specified time?

what do we assume?

Answer 78

find the probability that each path will finish by the specified time

then multiply those probabilities

we assume independence of path durations

Question 79

two conditions for independence of path durations

Answer 79

(a) that the activity/work package durations are independent of each other
(b) that each activity/work package is on only one path

Question 80

when do we use simulation to find the desired probabilities in the three-point estimation method?

how do we use it?

Answer 80

when paths are not independent

a form of repeated sampling

many passes are made through the precedence network

a random value for each activity/work package’s duration is selected from the probability distribution of its duration in each pass

After each pass, the project duration is determined

Question 81

crashing a project

Answer 81

Reducing the length of a project by using additional resources

Question 82

which activities are potential candidates for project crashing? why?

Answer 82

Only activities on the critical path

because shortening non-critical activities would not have an impact on the project duration

Question 83

from an economic standpoint, critical activities should be crashed according to what?

what does this mean?

Answer 83

according to crashing cost per period

crash those with the lowest crash cost per period first

Question 84

The general procedure for crashing is:

Answer 84

1. Obtain estimates of regular and crash durations and crash cost per period for each activity, and indirect project costs per period
2. Determine the lengths of all paths
3. Determine the critical activities
4. Crash critical activities, starting from the cheapest, as long as crashing cost per period does not exceed the benefits of crashing

Question 85

when crashing projects, what can happen to the number of critical paths?

Answer 85

we could be getting more than one critical path the more we shorten the longest path already

Question 86

Project execution

Answer 86

involves the actual performance of the activities/work packages that were planned in project planning

Question 87

the critical chain approach for project execution

Answer 87

used when multiple projects are underway and require joint resources

used to combat student’s syndrome and Pαrkinson’s law

Question 88

student’s syndrome

Answer 88

a student tends to delay the start of an assignment until the last possible time

Question 89

Pαrkinson’s law

Answer 89

states that work expands to fill the time available for its completion

Question 90

how does the critical chain approach for project execution combat student’s syndrome and Pαrkinson’s law?

Answer 90

does not disclose the due dates of activities to the project workers

activities are prioritized, scheduled accordingly, and done as soon as possible

Question 91

Project control

Answer 91

involves assessing a project’s progress against plans

taking corrective actions, if necessary, in order to bring the project on track

controlling the changes to a project or to the project’s scope

Question 92

scope creep

Answer 92

The problem of uncontrolled changes to a project’s scope

Question 93

Earned value analysis

Answer 93

a standard method of measuring a project’s progress at any given point in time

forecasting the project’s completion date and final cost

analyzing variances in the schedule and budget as the project proceeds

Question 94

how to measure the progress of a project at any given time (t)?

Answer 94

with EV: budgeted cost of work performed up to t (Earned Value)

do not do it with PV: cost of work scheduled up to t (Planned Value)

Question 95

how to measure the scheduled time overrun (in dollars) at time t?

Answer 95

PV (planned value) - EV (earned value)

Question 96

how to measure the cost estimate at completion (EAC)?

Answer 96

EAC = BAC / (EV/AC)

EAC: cost estimate at completion

BAC: budget at completion

EV: earned value

AC: actual cost

Question 97

how to measure the cost overrun (in dollars) at time t?

Answer 97

AC (actual cost) - EV (earned value)

Question 98

what do we use for quality control?

Answer 98

involves using quality tools such as the control chart and cause and effect diagram

we want to identify quality “variance” and the cause to implement corrective action

Question 99

advantages to using project management software

Answer 99

It imposes a methodology and common project management terminology

It provides alogical planning structure

It enhances communication among team members

It flags the occurrence of a problem

It automatically formats reports

It generates multiple levels of summary reports and detailed reports

It enables “what-if’ scenarios

It generates various charts, including a basic schedule Gantt chart

Question 100

A major limitation of using Gantt charts for project management is that they do not:

a. Indicate all the major activities involved.
b. Indicate the closeout phase.
c. Show the timing of activities.
d. Show relationships among activities.

Answer 100

d. Show relationships among activities.