Information Technology and Its Applications - nursing - social networks - 3
1. Information Technology
And Its Applications
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2. NO BODY I S
PERFECT
NOPROBLE M
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4. Remember?!
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5. Remember?!
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6. Remember?!
Data
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7. Remember?!
Information
Data
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
8. Remember?!
knowledge
Information
Data
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
9. Remember?!
wisdom
knowledge
Information
Data
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10. Remember?!
wisdom
knowledge
Information
Data
facts, statistics, symbols....
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
11. Remember?!
wisdom
knowledge
Information
Interpreted data, data with meaning
Data
facts, statistics, symbols....
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
12. Remember?!
wisdom
knowledge
Organized Information
Information
Interpreted data, data with meaning
Data
facts, statistics, symbols....
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
13. Remember?!
wisdom
Applied Knowledge
knowledge
Organized Information
Information
Interpreted data, data with meaning
Data
facts, statistics, symbols....
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
14. Remember?!
wisdom
Applied Knowledge
to
knowledge
ds
lea
Organized Information
Information
Interpreted data, data with meaning
Data
facts, statistics, symbols....
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
15. Remember?!
wisdom
Applied Knowledge
to
knowledge
ds
lea
Organized Information
Information
Interpreted data, data with meaning
Data Example: It is
facts, statistics, symbols.... raining
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
16. Remember?!
wisdom
Applied Knowledge
to
knowledge
ds
lea
Organized Information
Information Example: It
became colder so
Interpreted data, data with meaning it started to rain.
Data Example: It is
facts, statistics, symbols.... raining
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
17. Remember?!
wisdom
Applied Knowledge
to
Ex: If the humidity is very high and
knowledge the temperature drops the
ds
atmosphere might not be able to
lea
Organized Information hold the moisture any longer and it
rains.
Information Example: It
became colder so
Interpreted data, data with meaning it started to rain.
Data Example: It is
facts, statistics, symbols.... raining
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
18. Remember?!
Example: The temperature drops
every year between May and
September. Hence the chance for
wisdom rain increases. That’s why this period
of time is called rainy season.
Applied Knowledge
to
Ex: If the humidity is very high and
knowledge the temperature drops the
ds
atmosphere might not be able to
lea
Organized Information hold the moisture any longer and it
rains.
Information Example: It
became colder so
Interpreted data, data with meaning it started to rain.
Data Example: It is
facts, statistics, symbols.... raining
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
22. Remember 2?
Primary Secondary
•directly
connected to CPU
•stores data
temporarily
23. Remember 2?
Primary Secondary
•directly
connected to CPU
•stores data
temporarily
•relatively small /
fast
24. Remember 2?
Primary Secondary
•directly
connected to CPU
•stores data
temporarily
•relatively small /
fast
•Ex: RAM, CPU
25. Remember 2?
Primary Secondary
•directly •Used for more
connected to CPU permanent storage
•stores data
temporarily
•relatively small /
fast
•Ex: RAM, CPU
26. Remember 2?
Primary Secondary
•directly •Used for more
connected to CPU permanent storage
•stores data •non-volatile
temporarily
•relatively small /
fast
•Ex: RAM, CPU
27. Remember 2?
Primary Secondary
•directly •Used for more
connected to CPU permanent storage
•stores data •non-volatile
temporarily •connected via
•relatively small / storage controllers
fast
•Ex: RAM, CPU
28. Remember 2?
Primary Secondary
•directly •Used for more
connected to CPU permanent storage
•stores data •non-volatile
temporarily •connected via
•relatively small / storage controllers
fast •Ex: Hard disk,
•Ex: RAM, CPU DVD
29. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more
connected to CPU permanent storage
•stores data •non-volatile
temporarily •connected via
•relatively small / storage controllers
fast •Ex: Hard disk,
•Ex: RAM, CPU DVD
30. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more
connected to CPU permanent storage
•loses data when
power is turned off
•stores data •non-volatile
•used for
temporarily •connected via temporary storage
•relatively small / storage controllers
•faster
fast •Ex: Hard disk,
•Ex: RAM
•Ex: RAM, CPU DVD
31. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
32. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
Read Only Writeable
33. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
Read Only Writeable
•content can not
be modified
•used for long
term storage
•Ex: CD ROM,
DVD
34. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
Read Only Writeable
•content can not •content can be
be modified modified
•used for long •slower due to
term storage write operations
•Ex: CD ROM, •Ex: Hard drive,
DVD Flash drive
35. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
Read Only Writeable Optical Magnetic
•content can not •content can be
be modified modified
•used for long •slower due to
term storage write operations
•Ex: CD ROM, •Ex: Hard drive,
DVD Flash drive
36. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
Read Only Writeable Optical Magnetic
•content can not •content can be •data stored on
be modified modified reflective
•used for long •slower due to polycarbonite discs
term storage write operations in form of pits and
•Ex: CD ROM, •Ex: Hard drive, bumps
DVD Flash drive •Ex: DVD
37. Remember 2?
Primary Secondary Volatile Non Volatile
•directly •Used for more •retain contents
connected to CPU permanent storage
•loses data when when power is absent
power is turned off
•stores data •non-volatile •used for permanent
•used for
temporarily •connected via temporary storage
storage
•relatively small / storage controllers •usually slower
•faster
fast •Ex: Hard disk, •Ex: Hard disk, Flash
•Ex: RAM
•Ex: RAM, CPU DVD drive
Read Only Writeable Optical Magnetic
•content can not •content can be •data stored on •data stored on
be modified modified reflective magnetically coated
•used for long •slower due to polycarbonite discs surface
term storage write operations in form of pits and •non volatile
•Ex: CD ROM, •Ex: Hard drive, bumps •long term storage
DVD Flash drive •Ex: DVD •Ex: Hard disk
44. Social Media
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
45. Social Media
Social Networks
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
46. Social Media
Social Networks
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47. Social Media
Social Networks Social Services
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48. Social Media
Social Networks Social Services
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49. Networks
Definition: A set of relationships (links) that connects people
or objects (nodes).
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50. Networks
Definition: A set of relationships (links) that connects people
or objects (nodes).
node
link
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51. Networks
Definition: A set of relationships (links) that connects people
or objects (nodes).
node
link
node
link
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52. Networks
Definition: A set of relationships (links) that connects people
or objects (nodes).
node
link
node
link
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53. Networks
Definition: A set of relationships (links) that connects people
or objects (nodes).
r k s
wo
t
node
N e
l
link
o c ia
S
node
link
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54. Small World Phenomenon
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55. Small World Phenomenon
‘6 degrees of separation’
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56. Small World Phenomenon
6° ‘6 degrees of separation’
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57. Small World Phenomenon
6° ‘6 degrees of separation’
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58. Small World Phenomenon
6°
Six degrees of separation
(also referred to as the
"Human Web") refers to the
idea that everyone is at most
‘6 degrees of separation’
six steps away from any
other person on Earth, so
that a chain of, "a friend of a
friend" statements can be
made to connect any two
people in six steps or fewer.
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59. Network
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60. Network
A network is a group of
two or more computers
linked together. There are
many types of computer
networks including:
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61. Network
local-area networks (LANs): The computers are
geographically close together (example: in the same
building).
A network is a group of
two or more computers
linked together. There are
many types of computer
networks including:
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62. Network
local-area networks (LANs): The computers are
geographically close together (example: in the same
building).
wide-area networks (WANs) : The computers are farther
apart and are connected by telephone lines or radio
waves.
A network is a group of
two or more computers
linked together. There are
many types of computer
networks including:
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63. Network
local-area networks (LANs): The computers are
geographically close together (example: in the same
building).
wide-area networks (WANs) : The computers are farther
apart and are connected by telephone lines or radio
waves.
campus-area networks (CANs): The computers are within a
limited geographic area, such as a campus or military
base.
A network is a group of
two or more computers
linked together. There are
many types of computer
networks including:
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
64. Network
local-area networks (LANs): The computers are
geographically close together (example: in the same
building).
wide-area networks (WANs) : The computers are farther
apart and are connected by telephone lines or radio
waves.
campus-area networks (CANs): The computers are within a
limited geographic area, such as a campus or military
base.
A network is a group of metropolitan-area networks (MANs): A data network
two or more computers designed for a town or city.
linked together. There are
many types of computer
networks including:
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
65. Network
local-area networks (LANs): The computers are
geographically close together (example: in the same
building).
wide-area networks (WANs) : The computers are farther
apart and are connected by telephone lines or radio
waves.
campus-area networks (CANs): The computers are within a
limited geographic area, such as a campus or military
base.
A network is a group of metropolitan-area networks (MANs): A data network
two or more computers designed for a town or city.
linked together. There are home-area networks (HANs): A network contained within a
many types of computer user's home that connects a person's digital devices.
networks including:
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
66. Network
local-area networks (LANs): The computers are
geographically close together (example: in the same
building).
wide-area networks (WANs) : The computers are farther
apart and are connected by telephone lines or radio
waves.
campus-area networks (CANs): The computers are within a
limited geographic area, such as a campus or military
base.
A network is a group of metropolitan-area networks (MANs): A data network
two or more computers designed for a town or city.
linked together. There are home-area networks (HANs): A network contained within a
many types of computer user's home that connects a person's digital devices.
networks including: wireless local-area networks (W-LANs): A network that
provides connectivity to wireless devices within a limited
geographic region (example: RSU Wifi).
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
68. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
69. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
70. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
71. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
72. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
73. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
74. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
75. Networks
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
76. Networks
hyper text transfer protocol secure
file transfer protocol
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
77. Networks
hyper text transfer protocol secure
file transfer protocol
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
78. Networks
hyper text transfer protocol secure
file transfer protocol
topology : The geometric arrangement of a computer system. Common topologies include
a bus, star, and ring.
protocol : The protocol defines a common set of rules and signals that computers on the
network use to communicate. One of the most popular protocols for LANs is called
Ethernet.
architecture : Networks can be broadly classified as using either a peer-to-peer (P2P) or
client/server architecture.
79.
80. Now You! Back to social!
CREATE a Social Network
How does it work?
Purpose?
What do you need?
Technology?
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81. Assignment
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82. Assignment
‘Midterm Test’ next week!
2 July 2012
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83. Assignment
‘Midterm Test’ next week!
2 July 2012
Assignment Presentation:
9 -23 July 2012
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
84. Assignment
‘Midterm Test’ next week!
2 July 2012
Assignment Presentation:
9 -23 July 2012
Awesome Social
or
Application Media
for ‘health’, ‘nursing’ or ‘help’
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85. Call me, maybe
Name : AJ Sascha Funk
Address : RIC Main Office, 2nd floor
Email : info@sayfun.me || facebook.com/SaschaFunk
Phone : 02-997-2200 Ext. 4016, 082 101 328 9
Script: http://sayfun.me/students-stuff/RIC/
Final Exam:
Aug 6, 2012
www.sayfun.me | AJ Sascha Funk | Information Technology & Its Applications | Rangsit University - International College
Notes de l'éditeur
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If you say ‘no’ you need to tell me why ‘no’. Not just say ‘noooo’\n
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group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
group work. present! \ntime frame: 10 minutes. \nwork shop: come up with examples! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
only 4 examples. there are more! \n
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Who started it? What does it mean? - Find out now! \nStanley Milgrim - experiment\n
Who started it? What does it mean? - Find out now! \nStanley Milgrim - experiment\n
Who started it? What does it mean? - Find out now! \nStanley Milgrim - experiment\n
Who started it? What does it mean? - Find out now! \nStanley Milgrim - experiment\n