Mikrotik NAT setup
IP->Firewall
Filter rule:
add new
chain: input
protocol: 6 TCP
DST port: port
action: accept
—-comment——
NAT setup
add new
chain: dstnat
dst address: external address
protocol: 6 TCP
dst port: inbound port
action: dst-nat
to address: internal address
to ports: internal ports
—-comment—-
elab electrical shutdown notes
Shutdown scenarios:
Categories:
Power systems:
Critical system monitoring/telemetry
elab22.hpa.edu (VM)
elab22b.hpa.edu (VM)
elab-seismic
elab-weather
elab-sdr
elab-energy
nasa-drobo
Network systems
Switch panel
Routers
Cable modems
VPN servers
POE systems
Data backups/drives
NAS cluster x3
Synology NAS
Drobo x3
NASA drobo
USB attached drives
Water/lighting/ventilation systems
Water purification system (UV)
Water pumping system (blue tank)
Fans, windows, louvers
Lighting controls: Lutron, CBW
Remote systems: weather, seismic, vog
Wind shed power unit
Wind shed seismic sensor
West entry vog sensor
Workstations:
Mac pro units, conf room
elab-cache server
elab-conf east
elab-gpac server
elab i7 dual
elab i7 workroom
elab-lanai
elab-media
elab-project rooms
elab-monitor
eleven
mini-m1
mini-m1beta
mini-emotiv
adobe alpha
adobe beta
dell AIO
main hall
lanai
Shutdown sequence:
UPS list
Electrical
cm
NAS
switch
gateway
LED
Monlab
main switch (fail)
APC (fail)
under bench APC
bench 1 cyber
bench 2 cyber
Conference room
servers-tripplite
Office
Desk A
Desk B
External switch
Final:
Switch panel master switch
Inverter master switch: AC in, DC in
Defrost 3x refrigerators
Restart:
Check water UV treatment, should read 48 Watts
inverter restart
CB panels on, C->B->A
restart VM 22, 22a (TBD 22a r/r mysql)
check ubnt network (~94)
check intermapper green, mini
check rumpus on elabweb
check http and dhcp on physics
restart earthworm on 26
check swarm on 28
restart mango 4.00 on 57 via ssh ubuntu /opt/mango/bin
TBD 126 mango r/r
check security spy on 44
check network on 1.21
check AV on 1.22
check unms
check PPA inverter
check elab-met link
check gpac-engineering link
WX-Vog-EQ pages
PWS-Personal weather station
https://www.pwsweather.com/station/pws/HPAELABN
Wunderground-Waimea station master list
https://www.wunderground.com/member/devices
Wunderground-Elab North station
https://www.wunderground.com/dashboard/pws/KHIWAIME12
Elab North-on campus direct access
Weathercat-on campus direct access
CWOP-Citizens weather program
http://www.findu.com/cgi-bin/wxpage.cgi?call=0269
Windy-weather
https://www.windy.com/20.028/-155.676?19.972,-155.758,11
PurpleAir-VOG map
https://www.purpleair.com/map?opt=1/mAQI/a10/cC0&inc=313230|313232#8/19.626/-155.661
UH Weather
HVO-Hawaii Volcanoes Earthquakes
https://www.usgs.gov/observatories/hawaiian-volcano-observatory/earthquakes
ShakeNet-earthquake network
https://shakenet.raspberryshake.org
MyShake-Elab Seismic sensors
https://shakenet.raspberryshake.org/my-shake
PTWC-Pacific Tsunami Warning Center
energy notes-labs 2016
Energy Curriculum notes 8.2016
VOM meter: 2 lead VOM, e.g. Fluke Model 114
Measure ohms short and open
Measure ohms across chest (can calculate fatal voltage here if current is known)
Measure ohms around circle of students, break circuit (circuit concept here: need two wires)
Define "circuit"
Measure voltage across chest-why does it vary? (EKG concept, can extend to differential EKG)
Measure DC voltage of small batteries (learn what symbols for DC and AC voltage are on the meter)
Measure AC voltage at outlet (caution here)
Explain why dry hands are better, cross body shocks, grounding
Measure resistance from hands to ground
Electrical safety unit…
Kill-a-Watt unit
Ohmic loads: tea maker, coffee maker (make sure water is cool)
P=VI
P = I2R
Measure voltage at outlet
Measure resistance of ohmic load with VOM
Predict power used, current
Measure power, current (ohmic load)
Power measured/power calculated = ?
Repeat with vacuum cleaner or other motor device
Recalculate power calculated vs. measured
P = VI again, vs. power measured
Try the P.F. button
Energy testing
Test power used by hot water heaters, chargers, vacuum cleaners, toaster, microwave, lights
Make sure to record PF as well (power factor) what is this?
Elab hunt:
Using elab2.hpa.edu, see if you can see the energy used at certain outlets, on/off
Energy profiles: graphical analysis
Using elab2.hpa.edu, identify samples by:
Light bulb analysis:
Incandescent bulb: measure R with VOM, measure power with KaW unit
CFL: repeat
LED: repeat
Next measure light output for each, compare with power used (measured with KaW unit)
Cost to run:
Calculate cost to use each bulb for 1 hour, define kWh.
Calculate cost to run tea maker for 1 hour, define kWh.
Calculate savings between LED, CFL and incandescent bulb, per day, week, month, year, over lifetime
Define ROI and TCO
Renewable energy:
ROI and TCO
PV, Wind and Solar thermal
ROI is time to pay off device (in days, months or years)
TCO is total cost of ownership (should be negative)
Data from websites or hands-on if available
Efficiency evaluation
PV panel
Measure incident solar radiation (or from weather service) in W/m2
Measure output of PV panel, using ohmic load (resistor or tea maker), current, voltage
Calculate % efficiency
Solar Thermal Panel
Solar thermal same incident solar, measure temp in and out for solar panel, and time to fill 1 liter container (flux)
Use mc∆t to calculate calories captured/harvested, 4.18j = 1 calorie, j/s = Watts
Wind turbine
Difficult with varying wind, you may be able to hold small turbines while driving a truck (this is how some are actually evaluated)
Area of turbine is needed, and wind speed, altitude (air density) as well
Look up Betz coefficient, 0.39 is max (why?)
May be done using data from manufacturers
Residential energy audits
TED units (theenergydetective.com)
Installed at houses, classrooms
Measures predicted billing, uses, trends
Excellent for articulating with commercial energy audits
Control by web units, using current transformers
CBW analog units process 8 analog 0-5Vdc inputs to web interface with logging
CTs are Hawkeye 922 units (0-5 Vdc output), with 30,60 and 120 Ampere rating
Larger ones as well
Assume PF = 1.00, calculate Watts from P = VI (assume voltage constant, but measure accurately to calibrate)
Energy Lab server
elab2.hpa.edu
Telemetry of campus or remote locations
Can interface with CBW units globally, as long as they have access to internet
Used in "energy hunts" finding lights or loads hidden around buildings
APES energy labs
Bring along notes, a meter stick, a yellow VOM meter and a thermal camera
Solar thermal (ST) panel
Photovoltaic (PV) panel
Wind turbine
Energy Hunt
Circuit breaker panel in the electrical room downstairs
A panel: large things (Air conditioner, water heater)
B1 and B2 panels: wall and floor outlets
C panel: lights
next steps:
solar thermal efficiency: water flow, temperature change, solar insolation
PPA PV panel efficiency: power produced, solar insolation, actual size of each panel, number of panels
wind turbine efficiency (windy day needed): power produced, wind speed
light bulb efficiency: incandescent, CFL and LED bulbs: energy input and light output
ROI and TCO in depth: solar thermal, pv and wind
next next steps:
LEED and LBC, building efficiency
HPA 2030 plan
Physics energy modules
update debian 9 to 10
edit /etc/apt/sources.list
replace stretch with buster
sudo apt update
sudo apt upgrade
sudo apt full-upgrade
mango generic tcpip sensor:
GET /state.xml HTTP/1.1
.*?<input0state>(.*?) kW<\/input0state>
PPA efficiency
return ((p48.value)/(p353.value*7.61));
solar sensor p353
PPA power p48
elab solar sensor
10.14.58.3
80
\r\n\r\n\r\n
———————
GET /state.xml HTTP/1.1
<an4state>(.*)</an4state>
eGauge reader
http://10.14.8.2/cgi-bin/egauge?inst
Solar PPA Power
http://10.14.8.2/cgi-bin/egauge?inst
10.14.4.170
2-6f12bfe0-134b-4442-91de-5b48304f75d2, added 2021-02-08
ports 82, 8444
curl -o install-mango.sh https://raw.githubusercontent.com/infiniteautomation/ma-core-public/main/Core/scripts/install-mango.sh
sh install-mango.sh
systemctl stop mango
systemctl start mango
systemctl restart mango
systemctl status mango
sudo -u mango /opt/mango/bin/start-mango.sh > /dev/null &
kill $(cat /opt/mango/bin/ma.pid)
WX station summary
Davis-CBW setup
10.14.62.5 central
10.14.62.8 hoku
10.14.62.2 NE
I/O1 pull up input increment off 20 ms
I/O2 pull down counter off 20 ms
wind speed rate 1 m=2.25
wind direction analog 2 m=72 avg 1 min
rain counter m=0.01 in
temp 1 wire bus 6929
humidity 1 wire bus
solar rad analog 1 m=598.799 avg 1 min
bar pressure analog 4 m=6.437 offset 3.63
aux 1 analog 3 m=6.4 UV
Young-CBW setup
10.14.62.4 shed/ultrasonic wind sensor, needs pressure, UV sensor
10.14.62.6 young 5103 (moving vane)-move pressure sensor to 62.4
I/O1 input pull down counter off
I/O1 input pull down counter off
wind speed analog 3 m=44.73 avg 1 min
wind dir analog 4 m=72 avg 1 min degrees
rain counter 1 m=0.00394 in
temp analog 1 m=40, offset -50 °F
RH analog 2 m=20 %RH 10.14.47.1:80 5sec
solar rad rmt analog2 m=1 W/m^2 10.14.47.1:80 5sec
bar pressure-none
aux1 UV m=1.00
aux2 none
Davis-wireless to weatherCAT
station #2
Young 5103-CBW setup
10.14.62.6 MLO tower
wind speed frequency m=0.0219
wind dir analog 1 m=72 offset -120
bar pressure analog 2 m=6.437 offset 3.63
KHIWAIME16 10.14.4.33 elab NW-refurbished RH inop repaired 6322 DAVIS for elab NW-done, station #2
Weathercat
KHIKAMUE2 10.14.62.5 elab central: wind speed r/r
Vantage pro+ —CBW
KHIWAIME2 10.14.62.4 r/r barometer, UV sensor
RM young—CBW
KHIWAIME56 10.14.62.2 elab NE-r/r RH, wind align
Davis-CBW
KHIWAIME8 10.14.62.8 Hoku-operational
Davis-CBW
prototype X-433 POE WX station, DAVIS 6322 base
Prototype NRG sensors on CBW unit 10.14.62.20 speed, solar, temp, direction pending sensor
NRG sensors: 10.14.62.20/10.14.62.7
Solar: apogee PYR-P 7151 5.00 W/m2/mV red+ blk- gnd
CBW m=5000 0-5Vdc
Wind dir: signal NRG200D
0-800kΩ blk - gnd, wh signal, red + 1-15 Vdc
Anemometer: NRG40C
frequency, 1.711 mph/Hz, 0.78 offset
Temp NRG 110S (using digital)
PPA solar
255W panels x 468
1.64mx0.992m (external)
rensola JC255M-24BB
STC power 255
PTC power 232
STC power per area 156 W/m2
90% power 10 years
inverter: 468*255W = 1193400 W = 119.3 kWp
efficiency:
area x solar radiation (2)=ideal power (kW)
PPA power (10) = actual power (kW)
actual/ideal x 100 = %
area = 468x1.64x0.992 = 761.4 m2
formula: s=(#10)/(#2*0.761), write #=s
531 w/m2 * 761 m2 = 404091W/1000 = 404 kW ideal
PPA power = 71 kW
71/404 = .175
x100 = 17.5%
(#10)/(#2*.00761)
elab LED lights
ULP2PE2-305B6D-electrical
ULP2PE2-305D29-girls north
ULP2PE2-305D3D-girls south
ULP2PE2-305DEB-boys south
ULP2PE2-9E995F-boys north
ISR 2021 notes
EMC 9 EMC v.4
204.130.155.58
works for all cbw sensors
isr/papaya77
EMC 5 EMC v.4
204.130.155.55
works for all cbw sensors
isr/papaya77
EMC 155 EMC v.6
204.130.155.62
works for all cbw sensors
isr/papaya77
mango 163 mango v.3
67.53.209.186:8080
best for egauges
isr/papaya77
mango 123 mango v.4
204.130.155.61:8080
admin/admin
isr/papaya77
egauge
egauge 10.14.8.2
skyspark skyspark.hpa.edu
10.14.9.10:8080
Timeline:
Intro/checkin
S2 project proposals
teams-diads (see below)
weblogs-screenshots, links
Overall plan: EMC and Mango telemetry systems
Why same, why different, why useful to whom
privacy issues: faculty cottages
M2M and IoT-the future
EMC intro
why-time, data evolution, changes made, financial decisions, “actionable intelligence”
what measured-anything by xml, many others, both telemetry (“far-measuring”) and control
xml vs. html-markup languages, both useful to interact with machines
data storage-mySQL: global, expansive, hard to manage, alternatives (noSQL, h2, MangoDB)
sample dashboard on 58 (elab 9)-Cade
monitor-all-look at various sensors
monitor, choose pair of sensors, graph
change date range
mango sensors-autopopulates
Sample metrics:
Energy
kW (power)-generation, use
kWh (energy)-generation, use, storage
voltage-AC/DC
current-amperes AC/DC
water
temp-tank, solar panel up/down
flow rate-pump, collection, irrigation
total amount-tank, leaks, users
tank level (using ultrasonics)
air
temp
rh
% CO2
air flow
weather
temp
wind speed/direction
RH
solar radiation
UV index
VOG levels
barometric pressure
HVAC
controls: temp, timers, occupancy sensors
sensors: integration with motion sensors, cameras
controls
xml commands-state.xml
Next steps:
IFTTT cloud based
mango server (cloud or local)
real time drone integration?
Task:
Create a dashboard for each of these:
Energy
Water
Weather
Inside air quality
Teams:
ISR D
Cade-Eddie
Nic-Anuhea
Jared-Kyle
Alec
Will-Andy
ISR F
Pierce
Stefano
Nate
Ryan
—————————————
Cade
safety check video
simulator-driving manual?
video-
like science, but hands-on better
projects-explore what you are interested in
hydroponics
water metering
soldering
kyle-video
jared-driving sim
hydroponics-phase 2?
fruits of labor
water metering-sem 2?
water lines on foot-hinting at cart
wiring at elab——
success with jared-drove first time
can we do this-budget
Jared
Nick
aviation
laser cutter, router, 3d printer
survey mission-thermal camera
great notes for college!
water loss test
survey of solar penetration
machine learning mention
wind tunnel modification
simpler solution
Ryan
VOM
arduino
rpi
brain waves
Andy
interviewed by Will
raytracing
retinal computing-look into this
polygon based for computing, but internal computing is much faster
c is not important for local situations, unless you are going very fast
are you showing off?
doppler not useful at non-relativistic speeds, are you considering this for astronomy?
learn the physics equations
I’d like to hear more about the computing…
CPU-GPU discussion is inaccurate, work on that
you might want to look into parallel processing, as well as machine code
machine learning would be your next step
the rotation algorithm is interesting, but not clearly explained…
Anuhea
excellent video
soldering iron
VOM
arduino
jetson nano
AI
python code, math equations
python background-nice presentation
great drone project, excellent photo
excellent data analysis
Alec
so serious!
kyle interviewing
flight simulator
MS FS
guidebook-great idea
nice to include some basic aeronautics
could you explain the navigation bits?
models would be great as part of the video tutorials
nice to leave something for future students
great explanation of why kids would find your video useful
Eddie
Cade interviewing
inspiration is good
good reasoning
need to come up with a project of your own, leveraging your interests
elab technology might be of interest to you
video project explanation?
independent rPI work would be really useful for you
water mapping project could be something you could discuss further
car video details would be good to expand upon
let’s find a way to combine your interest and your creativity
—————————teams
Anuhea, Alec, Nic, Jared: Solar array efficiency project
Will, Andy: remote telescope control
Cade, Eddie: sensors
2.2.21———
Cade-Eddie
sanyo array temp sensor r/r
WX prototype-shed?
wx station r/r Ext temp-Wind-Ext humidity
disable open AP tennis
xml
Anuhea-Nic-Alec
efficiency over time entry: day, years
elab efficiency
isolate 4 limbs of PPA: switch
CBW setup
X-420 graphing
xml
Will-Andy
AAVSO visit
Diagrams
Field of view calculations, photos
mounting, power, data requirements
ant issues
vog-weather page for HPA
HPA4 create-VC UHF-VHF repeater
FCC license
xml
Stefano, Pierce, nate, Kaden, yuya
teams:
Nate, Kaden, Pierce
Stefano, Yuya
Nate-Kayden
Welding
genset
sensors
toolkits
xml
Stefano-Yuya
CNC
man cave setup: stereo
vog-weather page for HPA
toolkits
xml
WX stations-Weather underground
https://www.wunderground.com/member/devices
Hoku wx station
KHIWAIME107
MyQntriF
Location:
Waimea, HI
Neighborhood:
Hokuula Road
Elevation:
2732 ft.
Lat, Lon:
20.024765, -155.675095
Time Zone:
Pacific/Honolulu
Upload Key:
3c3d404c
|
Waimea (Waimea), HI |
Offline |
wieckingCAM2 |
HIrbgtCx |
WebCam |
Edit | Delete |
more_vert |
|
|
Kamuela (Energy Lab, Hawaii Preparatory Academy), HI |
station |
KHIKAMUE2 |
0ef99c7b |
PWS |
Edit | Delete |
more_vert |
|
|
Kamuela (Kohala Shore Research Station), HI |
Offline |
KHIKAMUE7 |
c39390bd |
PWS |
Edit | Delete |
more_vert |
|
|
Kamuela (Mauna Loa Phobos), HI |
Online |
KHIKAMUE8 |
7ccd34b3 |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (Waimea), HI |
Offline |
KHIWAIME107 |
MyQntriF |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (HPA Village Campus-netatmo), HI |
Offline |
KHIWAIME12 |
61c5f378 |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea ( HPA Energy Lab Central), HI |
Online |
KHIWAIME16 |
a02ce92e |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (HPA Energy Lab), HI |
Online |
KHIWAIME2 |
a38247ee |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (HPA Energy Lab, Kamuela), HI |
Online |
KHIWAIME56 |
bsorgr6e |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (HPA Energy Lab-netatmo), HI |
Offline |
KHIWAIME6 |
3da4f8c9 |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (HPA Village Campus), HI |
Offline |
KHIWAIME7 |
d0752d15 |
PWS |
Edit | Delete |
more_vert |
|
|
Waimea (Hokuula Road), HI |
Offline |
KHIWAIME8 |
3c3d404c |
PWS |
Edit | Delete |
|
|
Kamuela (Energy Lab, Hawaii Preparatory Academy), HI |
10.14.62.5 |
KHIKAMUE2 |
|
|
Kamuela (Kohala Shore Research Station), HI |
Offline |
KHIKAMUE7 |
|
|
Kamuela (Mauna Loa Phobos), HI |
10.14.100.20 |
KHIKAMUE8 |
|
|
Waimea (Waimea), HI |
|
KHIWAIME107 |
|
|
Waimea (HPA Village Campus-netatmo), HI |
Offline |
KHIWAIME12 |
|
|
Waimea ( HPA Energy Lab Central), HI |
10.14.4.33 |
KHIWAIME16 |
|
|
Waimea (HPA Energy Lab), HI |
10.14.62.4 |
KHIWAIME2 |
|
|
Waimea (HPA Energy Lab, Kamuela), HI |
10.14.62.2 |
KHIWAIME56 |
|
|
Waimea (HPA Energy Lab-netatmo), HI |
Offline |
KHIWAIME6 |
|
|
Waimea (HPA Village Campus), HI |
Offline |
KHIWAIME7 |
|
|
Waimea (Hokuula Road), HI |
10.14.62.8 |
KHIWAIME8 |
Raspberry shake
Elab:
AM.R659D.00.E[HZ,NZ,NN,NE]
b8:27:eb:6e:65:9d
Ryan-Waikii:
AM.R9ACD.00.E[HZ,NZ,NN,NE]
b8:27:eb:e9:9a:cd
Jordan: Kiholo
AM.RF746.00.E[HZ,NZ,NN,NE]
b8:27:eb:54:f7:46
Pierce: Hokuula rpi 4B
AM.R7DDA.00.E[HZ,NZ,NN,NE]
DC:A6:32:C7:7D:DA
Pierce-boom rpi 4b elab
AM.R160F.00 EHZ HDF
dc:a6:32:68:16:0f
Jordan-boom rpi 4b waikii
AM.R3A8A.00 EHZ HDF
dc:a6:32:7e:3a:8a
AM.R3A8A
192.168.3.0/24 nmap
Starting Nmap 7.91 ( https://nmap.org ) at 2021-01-23 12:30 HST
Stats: 0:08:51 elapsed; 201 hosts completed (54 up), 54 undergoing Connect Scan
Connect Scan Timing: About 98.80% done; ETC: 12:39 (0:00:06 remaining)
Stats: 0:08:51 elapsed; 201 hosts completed (54 up), 54 undergoing Connect Scan
Connect Scan Timing: About 98.80% done; ETC: 12:39 (0:00:06 remaining)
Warning: 192.168.3.227 giving up on port because retransmission cap hit (10).
Nmap scan report for 192.168.3.1
Host is up (0.0014s latency).
Not shown: 987 closed ports
PORT STATE SERVICE
53/tcp open domain
80/tcp open http
139/tcp open netbios-ssn
161/tcp open snmp
443/tcp open https
445/tcp open microsoft-ds
515/tcp open printer
548/tcp open afp
1723/tcp open pptp
5033/tcp open jtnetd-server
5440/tcp open unknown
8000/tcp open http-alt
8001/tcp open vcom-tunnel
MAC Address: 00:11:32:B3:F2:1E (Synology Incorporated)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.10 - 4.11
Network Distance: 1 hop
Nmap scan report for 192.168.3.9
Host is up (0.00036s latency).
Not shown: 995 closed ports
PORT STATE SERVICE
22/tcp open ssh
53/tcp open domain
80/tcp open http
443/tcp open https
10001/tcp open scp-config
MAC Address: 18:E8:29:AF:A9:EC (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.12
Host is up (0.00093s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
6789/tcp open ibm-db2-admin
7443/tcp open oracleas-https
8080/tcp open http-proxy
8888/tcp open sun-answerbook
MAC Address: 74:83:C2:73:F5:95 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.18
Host is up (0.00076s latency).
Not shown: 999 filtered ports
PORT STATE SERVICE
80/tcp open http
MAC Address: 00:0C:C8:02:BF:03 (Xytronix Research & Design)
Warning: OSScan results may be unreliable because we could not find at least 1 open and 1 closed port
Device type: router|WAP|media device|broadband router
Running (JUST GUESSING): Linksys embedded (88%), Planet embedded (87%), Sony embedded (87%), Yamaha embedded (87%), BinTec embedded (85%)
OS CPE: cpe:/h:sony:cmy-mx700ni cpe:/h:yamaha:rx-a2040 cpe:/h:bintec:rs232bw cpe:/h:bintec:r1200
Aggressive OS guesses: Linksys BEFSR41 EtherFast router (88%), Planet WAP-4000 v2 WAP (87%), Sony CMT-MX700Ni audio player (87%), Yamaha RX-A2040 AV receiver (87%), BinTec RS232bw ADSL modem (85%), BinTec R1200 WAP (85%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.22
Host is up (0.00034s latency).
Not shown: 996 closed ports
PORT STATE SERVICE
22/tcp open ssh
80/tcp open http
443/tcp open https
10001/tcp open scp-config
MAC Address: F0:9F:C2:63:EE:33 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 2.6.X
OS CPE: cpe:/o:linux:linux_kernel:2.6
OS details: Linux 2.6.32 - 2.6.35
Network Distance: 1 hop
Nmap scan report for 192.168.3.28
Host is up (0.00026s latency).
Not shown: 993 closed ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
311/tcp open asip-webadmin
407/tcp open timbuktu
625/tcp open apple-xsrvr-admin
5900/tcp open vnc
8088/tcp open radan-http
MAC Address: 00:16:CB:AB:AE:A1 (Apple)
Device type: general purpose
Running: Apple Mac OS X 10.7.X
OS CPE: cpe:/o:apple:mac_os_x:10.7
OS details: Apple Mac OS X 10.7.0 - 10.7.5 (Lion) (Darwin 11.0.0 - 11.4.2)
Network Distance: 1 hop
Nmap scan report for 192.168.3.29
Host is up (0.00068s latency).
Not shown: 976 closed ports
PORT STATE SERVICE
21/tcp filtered ftp
22/tcp filtered ssh
23/tcp filtered telnet
80/tcp filtered http
88/tcp open kerberos-sec
110/tcp filtered pop3
113/tcp filtered ident
135/tcp filtered msrpc
139/tcp filtered netbios-ssn
143/tcp filtered imap
199/tcp filtered smux
256/tcp filtered fw1-secureremote
515/tcp open printer
548/tcp open afp
554/tcp filtered rtsp
587/tcp filtered submission
631/tcp open ipp
993/tcp filtered imaps
995/tcp filtered pop3s
3283/tcp open netassistant
3389/tcp filtered ms-wbt-server
5900/tcp open vnc
8080/tcp filtered http-proxy
8888/tcp filtered sun-answerbook
MAC Address: 60:33:4B:2E:E1:59 (Apple)
Device type: firewall
Running (JUST GUESSING): Fortinet embedded (87%)
OS CPE: cpe:/h:fortinet:fortigate_100d
Aggressive OS guesses: Fortinet FortiGate 100D firewall (87%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.34
Host is up (0.00028s latency).
Not shown: 979 closed ports
PORT STATE SERVICE
21/tcp filtered ftp
22/tcp filtered ssh
23/tcp filtered telnet
80/tcp filtered http
110/tcp filtered pop3
113/tcp filtered ident
135/tcp filtered msrpc
139/tcp filtered netbios-ssn
143/tcp filtered imap
199/tcp filtered smux
256/tcp filtered fw1-secureremote
407/tcp open timbuktu
554/tcp filtered rtsp
587/tcp filtered submission
993/tcp filtered imaps
995/tcp filtered pop3s
1723/tcp filtered pptp
3389/tcp filtered ms-wbt-server
5900/tcp open vnc
8080/tcp filtered http-proxy
8888/tcp filtered sun-answerbook
MAC Address: 60:33:4B:2E:E1:59 (Apple)
Device type: phone|media device|general purpose
Running: Apple iOS 4.X, Apple Mac OS X 10.6.X
OS CPE: cpe:/o:apple:iphone_os:4 cpe:/o:apple:mac_os_x:10.6
OS details: Apple Mac OS X 10.5 (Leopard) - 10.6.8 (Snow Leopard) or iOS 4.0 - 4.2.1 (Darwin 9.0.0b5 - 10.8.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.36
Host is up (0.00044s latency).
Not shown: 975 closed ports
PORT STATE SERVICE
21/tcp filtered ftp
22/tcp filtered ssh
23/tcp filtered telnet
80/tcp filtered http
88/tcp open kerberos-sec
110/tcp filtered pop3
113/tcp filtered ident
135/tcp filtered msrpc
139/tcp filtered netbios-ssn
143/tcp filtered imap
199/tcp filtered smux
256/tcp filtered fw1-secureremote
407/tcp open timbuktu
548/tcp open afp
554/tcp filtered rtsp
587/tcp filtered submission
993/tcp filtered imaps
995/tcp filtered pop3s
1723/tcp filtered pptp
2170/tcp open eyetv
3283/tcp open netassistant
3389/tcp filtered ms-wbt-server
5900/tcp open vnc
8080/tcp filtered http-proxy
8888/tcp filtered sun-answerbook
MAC Address: 60:33:4B:2E:E1:59 (Apple)
Device type: phone|media device|general purpose
Running: Apple iOS 4.X, Apple Mac OS X 10.6.X
OS CPE: cpe:/o:apple:iphone_os:4 cpe:/o:apple:mac_os_x:10.6
OS details: Apple Mac OS X 10.5 (Leopard) - 10.6.8 (Snow Leopard) or iOS 4.0 - 4.2.1 (Darwin 9.0.0b5 - 10.8.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.38
Host is up (0.00048s latency).
Not shown: 999 filtered ports
PORT STATE SERVICE
80/tcp open http
MAC Address: 00:0C:C8:02:59:92 (Xytronix Research & Design)
Warning: OSScan results may be unreliable because we could not find at least 1 open and 1 closed port
Device type: router|WAP|media device|broadband router
Running (JUST GUESSING): Linksys embedded (88%), Planet embedded (87%), Sony embedded (87%), Yamaha embedded (87%), BinTec embedded (85%)
OS CPE: cpe:/h:sony:cmy-mx700ni cpe:/h:yamaha:rx-a2040 cpe:/h:bintec:rs232bw cpe:/h:bintec:r1200
Aggressive OS guesses: Linksys BEFSR41 EtherFast router (88%), Planet WAP-4000 v2 WAP (87%), Sony CMT-MX700Ni audio player (87%), Yamaha RX-A2040 AV receiver (87%), BinTec RS232bw ADSL modem (85%), BinTec R1200 WAP (85%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.42
Host is up (0.00048s latency).
Not shown: 985 closed ports
PORT STATE SERVICE
22/tcp open ssh
53/tcp open domain
80/tcp open http
407/tcp open timbuktu
443/tcp open https
445/tcp open microsoft-ds
548/tcp open afp
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
6789/tcp open ibm-db2-admin
8080/tcp open http-proxy
8181/tcp open intermapper
8443/tcp open https-alt
8888/tcp open sun-answerbook
MAC Address: A8:20:66:49:41:89 (Apple)
OS details: Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.50
Host is up (0.00040s latency).
Not shown: 993 closed ports
PORT STATE SERVICE
22/tcp open ssh
53/tcp open domain
88/tcp open kerberos-sec
3283/tcp open netassistant
3689/tcp open rendezvous
4000/tcp open remoteanything
5900/tcp open vnc
MAC Address: 40:6C:8F:4F:0A:02 (Apple)
Device type: general purpose|media device
Running: Apple OS X 10.11.X, Apple iOS 12.X
OS CPE: cpe:/o:apple:mac_os_x:10.11 cpe:/o:apple:iphone_os:12
OS details: Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.79
Host is up (0.00046s latency).
Not shown: 988 closed ports
PORT STATE SERVICE
22/tcp open ssh
80/tcp open http
88/tcp open kerberos-sec
407/tcp open timbuktu
443/tcp open https
445/tcp open microsoft-ds
2170/tcp open eyetv
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
8888/tcp open sun-answerbook
49165/tcp open unknown
MAC Address: 38:C9:86:1D:4A:F5 (Apple)
OS details: Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.92
Host is up (0.00073s latency).
Not shown: 996 filtered ports
PORT STATE SERVICE
22/tcp closed ssh
23/tcp open telnet
80/tcp open http
443/tcp open https
MAC Address: C4:6E:1F:FF:9D:FC (Tp-link Technologies)
Device type: general purpose
Running: Wind River VxWorks
OS CPE: cpe:/o:windriver:vxworks
OS details: VxWorks
Network Distance: 1 hop
Nmap scan report for 192.168.3.93
Host is up (0.00079s latency).
Not shown: 996 filtered ports
PORT STATE SERVICE
22/tcp closed ssh
23/tcp open telnet
80/tcp open http
443/tcp open https
MAC Address: 14:CC:20:85:25:1C (Tp-link Technologies)
Device type: general purpose
Running: Wind River VxWorks
OS CPE: cpe:/o:windriver:vxworks
OS details: VxWorks
Network Distance: 1 hop
Nmap scan report for 192.168.3.96
Host is up (0.00026s latency).
Not shown: 986 closed ports
PORT STATE SERVICE
80/tcp open http
111/tcp open rpcbind
139/tcp open netbios-ssn
443/tcp open https
445/tcp open microsoft-ds
548/tcp open afp
2049/tcp open nfs
3261/tcp open winshadow
3689/tcp open rendezvous
5000/tcp open upnp
5001/tcp open commplex-link
49160/tcp open unknown
50001/tcp open unknown
50002/tcp open iiimsf
MAC Address: 00:11:32:B4:DA:C1 (Synology Incorporated)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.109
Host is up (0.00042s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
80/tcp open http
8082/tcp open blackice-alerts
8100/tcp open xprint-server
8192/tcp open sophos
8888/tcp open sun-answerbook
9091/tcp open xmltec-xmlmail
MAC Address: 00:1D:C0:63:38:D8 (Enphase Energy)
Device type: general purpose
Running: Linux 2.6.X
OS CPE: cpe:/o:linux:linux_kernel:2.6
OS details: Linux 2.6.19 - 2.6.36
Network Distance: 1 hop
Nmap scan report for 192.168.3.149
Host is up (0.00021s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
515/tcp open printer
631/tcp open ipp
8080/tcp open http-proxy
9100/tcp open jetdirect
MAC Address: 10:E7:C6:60:37:44 (Hewlett Packard)
Device type: printer
Running: HP embedded
OS CPE: cpe:/h:hp:laserjet_cp4525 cpe:/h:hp:laserjet_m451dn
OS details: HP LaserJet M451dn, CM1415fnw, or CP4525
Network Distance: 1 hop
Nmap scan report for 192.168.3.150
Host is up (0.00065s latency).
Not shown: 989 closed ports
PORT STATE SERVICE
22/tcp open ssh
80/tcp open http
111/tcp open rpcbind
4000/tcp open remoteanything
6666/tcp open irc
6789/tcp open ibm-db2-admin
7443/tcp open oracleas-https
8080/tcp open http-proxy
8443/tcp open https-alt
9000/tcp open cslistener
9002/tcp open dynamid
MAC Address: 00:0E:C4:CC:A3:1B (Iskra Transmission d.d.)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.151
Host is up (0.00031s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
22/tcp open ssh
80/tcp open http
111/tcp open rpcbind
4000/tcp open remoteanything
9000/tcp open cslistener
9002/tcp open dynamid
MAC Address: 00:0E:C4:CE:2A:BB (Iskra Transmission d.d.)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.200
Host is up (0.00042s latency).
Not shown: 995 closed ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
MAC Address: 48:65:EE:17:76:28 (Ieee Registration Authority)
Device type: general purpose|media device
Running: Apple OS X 10.11.X, Apple iOS 12.X
OS CPE: cpe:/o:apple:mac_os_x:10.11 cpe:/o:apple:iphone_os:12
OS details: Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.202
Host is up (0.0084s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
22/tcp open ssh
53/tcp open domain
3283/tcp open netassistant
3689/tcp open rendezvous
4000/tcp open remoteanything
5900/tcp open vnc
MAC Address: 7C:D1:C3:90:CF:68 (Apple)
Device type: general purpose|media device
Running: Apple OS X 10.11.X, Apple iOS 12.X
OS CPE: cpe:/o:apple:mac_os_x:10.11 cpe:/o:apple:iphone_os:12
OS details: Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.203
Host is up (0.00025s latency).
Not shown: 995 closed ports
PORT STATE SERVICE
139/tcp open netbios-ssn
445/tcp open microsoft-ds
548/tcp open afp
5009/tcp open airport-admin
10000/tcp open snet-sensor-mgmt
MAC Address: 60:33:4B:2E:E1:59 (Apple)
Device type: WAP|storage-misc|general purpose
Running: Apple NetBSD 4.X, QNX RTOS 6.X
OS CPE: cpe:/h:apple:airport_extreme cpe:/o:apple:netbsd:4.99 cpe:/o:qnx:rtos:6.5.0
OS details: Apple AirPort Extreme WAP or Time Capsule NAS device (NetBSD 4.99), or QNX RTOS 6.5.0
Network Distance: 1 hop
Nmap scan report for 192.168.3.204
Host is up (0.0074s latency).
Not shown: 995 closed ports
PORT STATE SERVICE
5000/tcp open upnp
7000/tcp open afs3-fileserver
7100/tcp open font-service
49152/tcp open unknown
62078/tcp open iphone-sync
MAC Address: D4:90:9C:E7:EB:A0 (Apple)
Aggressive OS guesses: Apple OS X 10.11 (El Capitan) - 10.12 (Sierra) or iOS 10.1 - 10.2 (Darwin 15.4.0 - 16.6.0) (97%), Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0) (96%), Apple TV 5 (95%), Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0) (94%), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0) (93%), Apple TV 5.2.1 or 5.3 (93%), Apple iOS 9.0 (Darwin 15.0.0) (91%), Apple macOS 10.12.5 (Sierra) (91%), Apple iOS 5.0.1 (90%), Apple Mac OS X 10.7.4 - 10.7.5 (Lion) (Darwin 11.4.2) (90%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.205
Host is up (0.011s latency).
All 1000 scanned ports on 192.168.3.205 are closed (878) or filtered (122)
MAC Address: AC:1F:74:21:F5:3F (Apple)
Too many fingerprints match this host to give specific OS details
Network Distance: 1 hop
Nmap scan report for 192.168.3.206
Host is up (0.00031s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: 18:E8:29:50:0D:B9 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.207
Host is up (0.00034s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
MAC Address: F0:9F:C2:C1:89:83 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X
OS CPE: cpe:/o:linux:linux_kernel:3
OS details: Linux 3.2 - 3.16
Network Distance: 1 hop
Nmap scan report for 192.168.3.208
Host is up (0.00031s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: FC:EC:DA:B9:57:4C (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.209
Host is up (0.0014s latency).
Not shown: 999 closed ports
PORT STATE SERVICE
22/tcp open ssh
MAC Address: E0:63:DA:C7:E3:26 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 2.6.X|3.X
OS CPE: cpe:/o:linux:linux_kernel:2.6 cpe:/o:linux:linux_kernel:3
OS details: Linux 2.6.32 - 3.10
Network Distance: 1 hop
Nmap scan report for 192.168.3.211
Host is up (0.00036s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
MAC Address: FC:EC:DA:1F:70:92 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X
OS CPE: cpe:/o:linux:linux_kernel:3.10
OS details: Linux 3.10, Linux 3.2 - 3.16
Network Distance: 1 hop
Nmap scan report for 192.168.3.212
Host is up (0.016s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
49161/tcp open unknown
62078/tcp open iphone-sync
MAC Address: F4:5C:89:01:89:49 (Apple)
Aggressive OS guesses: Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0) (99%), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0) (99%), Apple TV 5 (96%), Apple iOS 5.0.1 (93%), Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0) (93%), Apple Mac OS X 10.7.4 - 10.7.5 (Lion) (Darwin 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) or iOS 4.2 - 5.0.1 (Darwin 10.4.0 - 11.4.2) (93%), Apple iOS 5.0.1 - 5.1.1 (93%), Apple iOS 6.1.4 (Darwin 13.0.0) (93%), Apple iOS 9 (Darwin 15.0.0) (93%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.213
Host is up (0.00066s latency).
Not shown: 995 closed ports
PORT STATE SERVICE
5000/tcp open upnp
7000/tcp open afs3-fileserver
7100/tcp open font-service
49153/tcp open unknown
62078/tcp open iphone-sync
MAC Address: C8:D0:83:E6:DA:49 (Apple)
Aggressive OS guesses: Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0) (97%), Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0) (95%), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0) (95%), Apple iOS 9.0 (Darwin 15.0.0) (94%), Apple OS X 10.11 (El Capitan) - 10.12 (Sierra) or iOS 10.1 - 10.2 (Darwin 15.4.0 - 16.6.0) (94%), Apple iOS 5.0.1 (93%), Apple Mac OS X 10.7.4 - 10.7.5 (Lion) (Darwin 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) or iOS 4.2 - 5.0.1 (Darwin 10.4.0 - 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) (Darwin 11.0.0 - 11.4.2) (93%), Apple iOS 5.0.1 - 5.1.1 (93%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.217
Host is up (0.0081s latency).
Not shown: 926 closed ports, 69 filtered ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
MAC Address: 3C:22:FB:17:1E:A7 (Apple)
Device type: phone|general purpose
Running: Apple iOS 11.X|12.X|13.X, Apple macOS 10.13.X|10.14.X|10.15.X
OS CPE: cpe:/o:apple:iphone_os:11 cpe:/o:apple:iphone_os:12 cpe:/o:apple:iphone_os:13 cpe:/o:apple:mac_os_x:10.13 cpe:/o:apple:mac_os_x:10.14 cpe:/o:apple:mac_os_x:10.15
OS details: Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.218
Host is up (0.040s latency).
Not shown: 951 closed ports, 44 filtered ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
MAC Address: 18:3E:EF:CE:0F:82 (Apple)
Device type: general purpose|media device
Running: Apple OS X 10.11.X, Apple iOS 12.X
OS CPE: cpe:/o:apple:mac_os_x:10.11 cpe:/o:apple:iphone_os:12
OS details: Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.219
Host is up (0.19s latency).
All 1000 scanned ports on 192.168.3.219 are closed
MAC Address: F0:99:19:9F:C6:90 (Garmin International)
Warning: OSScan results may be unreliable because we could not find at least 1 open and 1 closed port
Aggressive OS guesses: Garmin Virb Elite action camera (95%), Linksys HPRO200 cable/DSL router (92%), Roberts STREAM 202 Internet radio (92%), FreeBSD 7.0-RELEASE (92%), Symbol AP-2411 switch (92%), 2N Helios IP VoIP doorbell (91%), Advanced Illumination DCS-100E lighting controller (91%), AudioControl D3400 network amplifier (91%), British Gas GS-Z3 data logger (91%), Daysequerra M4.2SI radio (91%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.220
Host is up (0.021s latency).
Not shown: 688 closed ports, 308 filtered ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
3283/tcp open netassistant
5900/tcp open vnc
MAC Address: 14:7D:DA:99:A1:A8 (Apple)
Device type: general purpose|media device
Running: Apple OS X 10.11.X, Apple iOS 12.X
OS CPE: cpe:/o:apple:mac_os_x:10.11 cpe:/o:apple:iphone_os:12
OS details: Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.221
Host is up (0.00033s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: B4:FB:E4:10:06:C7 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.223
Host is up (0.00028s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: 74:83:C2:8C:6D:E1 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.227
Host is up (0.044s latency).
All 1000 scanned ports on 192.168.3.227 are closed (751) or filtered (249)
MAC Address: 9C:04:EB:AB:8D:2F (Apple)
Too many fingerprints match this host to give specific OS details
Network Distance: 1 hop
Nmap scan report for 192.168.3.231
Host is up (0.0051s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
5000/tcp open upnp
7000/tcp open afs3-fileserver
7100/tcp open font-service
49152/tcp open unknown
49153/tcp open unknown
62078/tcp open iphone-sync
MAC Address: 6C:4A:85:07:7C:88 (Apple)
Aggressive OS guesses: Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0) (97%), Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0) (96%), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0) (95%), Apple iOS 9.0 (Darwin 15.0.0) (95%), Apple OS X 10.11 (El Capitan) - 10.12 (Sierra) or iOS 10.1 - 10.2 (Darwin 15.4.0 - 16.6.0) (94%), Apple iOS 5.0.1 (93%), Apple Mac OS X 10.7.4 - 10.7.5 (Lion) (Darwin 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) or iOS 4.2 - 5.0.1 (Darwin 10.4.0 - 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) (Darwin 11.0.0 - 11.4.2) (93%), Apple iOS 5.0.1 - 5.1.1 (93%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.234
Host is up (0.00079s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
515/tcp open printer
631/tcp open ipp
8080/tcp open http-proxy
9100/tcp open jetdirect
MAC Address: C4:65:16:44:4A:D3 (Hewlett Packard)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.235
Host is up (0.0045s latency).
Not shown: 999 closed ports
PORT STATE SERVICE
9999/tcp open abyss
MAC Address: D8:07:B6:2E:8A:67 (Tp-link Technologies)
Device type: specialized|webcam|general purpose
Running (JUST GUESSING): OSRAM embedded (89%), Denver Electronics embedded (89%), 2N embedded (86%), iRobot embedded (86%), Philips embedded (86%), lwIP 1.4.X (86%), Rigol Technologies embedded (86%), Enlogic embedded (86%)
OS CPE: cpe:/h:osram:lightify cpe:/h:denver_electronics:ac-5000w cpe:/h:2n:helios cpe:/h:irobot:roomba_980 cpe:/h:philips:hue_bridge cpe:/a:lwip_project:lwip:1.4 cpe:/a:lwip_project:lwip cpe:/h:rigol_technologies:dsg3060
Aggressive OS guesses: OSRAM Lightify ZigBee gateway (89%), Denver Electronics AC-5000W MK2 camera (89%), 2N Helios IP VoIP doorbell (86%), iRobot Roomba 980 vacuum cleaner (86%), Philips Hue Bridge (lwIP stack v1.4.0) (86%), Philips Hue Bridge (lwIP stack) (86%), Rigol DSG3060 signal generator (86%), Enlogic PDU (FreeRTOS/lwIP) (86%), AudioControl D3400 network amplifier (86%), Yamaha RX-V671 AV receiver (86%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.237
Host is up (0.00032s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
MAC Address: F0:9F:C2:C1:7D:19 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X
OS CPE: cpe:/o:linux:linux_kernel:3
OS details: Linux 3.2 - 3.16
Network Distance: 1 hop
Nmap scan report for 192.168.3.240
Host is up (0.00062s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: F4:92:BF:72:D2:04 (Ubiquiti Networks)
Device type: WAP
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3.18 cpe:/o:linux:linux_kernel:4.1
OS details: OpenWrt Chaos Calmer 15.05 (Linux 3.18) or Designated Driver (Linux 4.1 or 4.4)
Network Distance: 1 hop
Nmap scan report for 192.168.3.241
Host is up (0.00056s latency).
Not shown: 997 closed ports
PORT STATE SERVICE
22/tcp open ssh
3283/tcp open netassistant
5900/tcp open vnc
MAC Address: 3C:7D:0A:0E:18:6C (Apple)
Device type: phone|general purpose|media device
Running: Apple iOS 11.X|12.X|13.X, Apple macOS 10.13.X|10.14.X|10.15.X, Apple Mac OS X 10.4.X, Apple OS X 10.11.X
OS CPE: cpe:/o:apple:iphone_os:11 cpe:/o:apple:iphone_os:12 cpe:/o:apple:iphone_os:13 cpe:/o:apple:mac_os_x:10.13 cpe:/o:apple:mac_os_x:10.14 cpe:/o:apple:mac_os_x:10.15 cpe:/o:apple:mac_os_x:10.4 cpe:/o:apple:mac_os_x:10.11
OS details: Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0), Apple Mac OS X 10.4.8 - 10.4.11 (Tiger) (Darwin 8.8.0 - 8.11.0), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.242
Host is up (0.0029s latency).
Not shown: 994 closed ports
PORT STATE SERVICE
5000/tcp open upnp
7000/tcp open afs3-fileserver
7100/tcp open font-service
49152/tcp open unknown
49153/tcp open unknown
62078/tcp open iphone-sync
MAC Address: 44:C6:5D:67:D0:59 (Apple)
Aggressive OS guesses: Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0) (97%), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0) (96%), Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0) (95%), Apple iOS 9.0 (Darwin 15.0.0) (94%), Apple OS X 10.11 (El Capitan) - 10.12 (Sierra) or iOS 10.1 - 10.2 (Darwin 15.4.0 - 16.6.0) (94%), Apple iOS 5.0.1 (93%), Apple Mac OS X 10.7.4 - 10.7.5 (Lion) (Darwin 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) or iOS 4.2 - 5.0.1 (Darwin 10.4.0 - 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) (Darwin 11.0.0 - 11.4.2) (93%), Apple TV 5.2.1 or 5.3 (93%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.244
Host is up (0.00033s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: B4:FB:E4:10:07:EC (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.245
Host is up (0.018s latency).
Not shown: 995 closed ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
MAC Address: DC:A9:04:82:B7:86 (Apple)
Device type: phone|general purpose|media device
Running: Apple iOS 11.X|12.X|13.X, Apple macOS 10.13.X|10.14.X|10.15.X, Apple Mac OS X 10.4.X, Apple OS X 10.11.X
OS CPE: cpe:/o:apple:iphone_os:11 cpe:/o:apple:iphone_os:12 cpe:/o:apple:iphone_os:13 cpe:/o:apple:mac_os_x:10.13 cpe:/o:apple:mac_os_x:10.14 cpe:/o:apple:mac_os_x:10.15 cpe:/o:apple:mac_os_x:10.4 cpe:/o:apple:mac_os_x:10.11
OS details: Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0), Apple Mac OS X 10.4.8 - 10.4.11 (Tiger) (Darwin 8.8.0 - 8.11.0), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0)
Network Distance: 1 hop
Nmap scan report for 192.168.3.246
Host is up (0.00027s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: 18:E8:29:50:10:79 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.247
Host is up (0.0021s latency).
Not shown: 999 closed ports
PORT STATE SERVICE
22/tcp open ssh
MAC Address: F0:9F:C2:CF:D5:CC (Ubiquiti Networks)
Device type: general purpose
Running: Linux 2.6.X|3.X
OS CPE: cpe:/o:linux:linux_kernel:2.6 cpe:/o:linux:linux_kernel:3
OS details: Linux 2.6.32 - 3.10
Network Distance: 1 hop
Nmap scan report for 192.168.3.248
Host is up (0.010s latency).
Not shown: 999 closed ports
PORT STATE SERVICE
62078/tcp open iphone-sync
MAC Address: 2E:F0:E2:A6:9A:05 (Unknown)
Aggressive OS guesses: Apple Mac OS X 10.7.0 (Lion) - 10.12 (Sierra) or iOS 4.1 - 9.3.3 (Darwin 10.0.0 - 16.4.0) (97%), Apple Mac OS X 10.11 (El Capitan) or iOS 12.4 - 13.0 (Darwin 15.6.0 - 19.0.0) (96%), Apple macOS 10.13 (High Sierra) - 10.15 (Catalina) or iOS 11.0 - 13.4 (Darwin 17.0.0 - 19.2.0) (95%), Apple iOS 9.0 (Darwin 15.0.0) (94%), Apple OS X 10.11 (El Capitan) - 10.12 (Sierra) or iOS 10.1 - 10.2 (Darwin 15.4.0 - 16.6.0) (94%), Apple iOS 5.0.1 (93%), Apple Mac OS X 10.7.4 - 10.7.5 (Lion) (Darwin 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) or iOS 4.2 - 5.0.1 (Darwin 10.4.0 - 11.4.2) (93%), Apple Mac OS X 10.7.0 - 10.7.5 (Lion) (Darwin 11.0.0 - 11.4.2) (93%), Apple TV 5.2.1 or 5.3 (93%)
No exact OS matches for host (test conditions non-ideal).
Network Distance: 1 hop
Nmap scan report for 192.168.3.249
Host is up (0.00035s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
80/tcp open http
443/tcp open https
MAC Address: FC:EC:DA:1F:12:35 (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X
OS CPE: cpe:/o:linux:linux_kernel:3
OS details: Linux 3.2 - 3.16
Network Distance: 1 hop
Nmap scan report for 192.168.3.250
Host is up (0.00030s latency).
Not shown: 998 closed ports
PORT STATE SERVICE
22/tcp open ssh
161/tcp open snmp
MAC Address: FC:EC:DA:B9:55:BC (Ubiquiti Networks)
Device type: general purpose
Running: Linux 3.X|4.X
OS CPE: cpe:/o:linux:linux_kernel:3 cpe:/o:linux:linux_kernel:4
OS details: Linux 3.2 - 4.9
Network Distance: 1 hop
Nmap scan report for 192.168.3.252
Host is up (0.0016s latency).
Not shown: 999 closed ports
PORT STATE SERVICE
22/tcp open ssh
MAC Address: 74:83:C2:DC:F2:CE (Ubiquiti Networks)
Device type: general purpose
Running: Linux 2.6.X|3.X
OS CPE: cpe:/o:linux:linux_kernel:2.6 cpe:/o:linux:linux_kernel:3
OS details: Linux 2.6.32 - 3.10
Network Distance: 1 hop
Nmap scan report for 192.168.3.58
Host is up (0.00015s latency).
Not shown: 966 closed ports, 28 filtered ports
PORT STATE SERVICE
22/tcp open ssh
88/tcp open kerberos-sec
2170/tcp open eyetv
3283/tcp open netassistant
4000/tcp open remoteanything
5900/tcp open vnc
Device type: general purpose
Running: Apple macOS 10.14.X
OS CPE: cpe:/o:apple:mac_os_x:10.14
OS details: Apple macOS 10.14 (Mojave) (Darwin 18.2.0 - 18.6.0)
Network Distance: 0 hops
OS detection performed. Please report any incorrect results at https://nmap.org/submit/ .
Nmap done: 256 IP addresses (55 hosts up) scanned in 4135.82 seconds
linux network scanning
arp -a
nmap -sP 192.168.1.0/24
sudo nmap -sT -O 192.168.1.0/24
(shows operating system info)
sudo nmap -sT -O 192.168.1.0/24 > nmap_output
(maps to output file)
TC 7.0 xml
XML is another markup language, but where html is all about hypertext or linking pages together, xml is called “extensible markup language” meaning it creates a container or format for data to be presented.
You have already been using this whenever you create a word or excel document, that’s why they are saved as .docx or .xlsx
The “x” is xml, meaning the document is a container, your words are the data.
Here’s an example:
Go to http://67.53.209.186:86 on your browser
This is one of our weather stations here at the energy lab, using port forwarding (remember that?) to port inbound port 86 to the actual port 80 on the machine at 10.14.62.4, which is inside our network.
You could also have used the vpn to get into the 10.14.x.y network, then just gone to 10.14.62.4. or 10.14.62.5
You should see something like this:
If you then enter:
http://67.53.209.186:86/state.xml
you are now asking this device to spit out its data in xml format:
Why is this important?
It gives you containers, which can then be parsed or split out to do neat stuff with that data.
But wait:
What if I want to control something?
Easy peasy:
Go to http://67.53.209.186:89
You should see this:
Open a new window and type this:
http://67.53.209.186:89/state.xml?relay1State=1
Now watch the fan page…
Congratulations, you have remotely turned on the fans in the elab.
Now turn them off…
http://67.53.209.186:89/state.xml?relay1State=0
Why is this important?
Check this out:
https://en.wikipedia.org/wiki/SCADA
Look down about half way on the page:
Here’s where you come in:
SCADA is notoriously insecure, running in most cases on windows DOS, windows 95 or windows XP, none of which are secure.
xml to the rescue!
This is the language you will use to replace the insecure SCADA system.
Siemens in Germany is already doing this, developing among other things a smart energy grid:
https://new.siemens.com/global/en/products/energy/energy-automation-and-smart-grid.html
If you want to make buckets of money, working on something really cool, this could be it.
———end of module 7 xml——next: html links—————
elab 2.0
C-6 cluster:
CBW X-600 master controller
X-19S expansion: 16 relays (parallel with 17,18,19), digital I/O input from relays (reporters)
fans need high current relays? signal to control boards?
X-22s 4-20 mA input (air flow?) also water level in basement
parallel with CO2 sensor 0-5Vdc inputs
solahart temp status
solar sensor II (UV, visible)
E-6 cluster
X-320/X-420 temp sensors for solar temp
solar radiation (visible, UV) from rooftop sensors
local window control?
air flow sensors
Water cluster:
X-420
water flow-pulse, slope
water level-4-20 mA
water use (pulse output, counter, slope)
energy use
local CO2-air sensor
temp: solahart
Monlab cluster:
WX sensor (X-320M)
power relays (autoboot)
Air sensors
Energy cluster:
UPS battery level
UPS system current (3 outlets)
Fan relay-temp sensors
Network cluster:
Digital I/O power levels
power switches-autoboot
elab 2.0a
Sensors: Veris CWLSHT CO2, RH temp
all analog 0-5VDC output
leave in parallel with existing CBW units (high impedance)
CBW large analog input units collect
X-16s 8 analog into X-600M system
X-22s for 4-20 mA units (water level, air velocity)
X-420 4 analog with digital I/O
X-18S 10 relays
Controls:
10 louvers 24 VDC
2 windows 24 VDC
4 fans 120VAC 2A
Elab/EMC/Mango
graphic
telemetry
status pages
APES energy labs 2020
Bring along notes, a meter stick, a yellow VOM meter and a thermal camera
Solar thermal (ST) panel
Photovoltaic (PV) panel
Wind turbine
Energy Hunt
Circuit breaker panel in the electrical room downstairs
A panel: large things (Air conditioner, water heater)
B1 and B2 panels: wall and floor outlets
C panel: lights
next steps:
solar thermal efficiency: water flow, temperature change, solar insolation
PPA PV panel efficiency: power produced, solar insolation, actual size of each panel, number of panels
wind turbine efficiency (windy day needed): power produced, wind speed
light bulb efficiency: incandescent, CFL and LED bulbs: energy input and light output
ROI and TCO in depth: solar thermal, pv and wind
next next steps:
LEED and LBC, building efficiency
HPA 2030 plan
APES energy units 2.11.20
hot water lab
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/d74ca/
renewable energy on campus
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/e0422/
energy primer
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/7794e/
nuclear energy
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/fe20e/
energy conservation
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/1c8fa/
solar thermal energy
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/2c160/
photovoltaic energy
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/596eb/
energy storage
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/83842/
net zero energy
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/6cdde/
smart buildings
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/2c047/
Power factor power rangers
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/a4faa/
solar radiation lab
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/cf674/
HPA 2030 plan
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/46948/
HEAT climate change
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/9afc2/
apes sem 2.1 energy summary
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/2be35/APES_sem_21.html
Frog ch. 17 notes
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/3ab4e/
solar and wind notes
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/f26fe/
solar labs
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/59032/
————e2 videos——————
e2: harvesting the wind
e2: energy for a developing world
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/f2aab/Wednesday_class_82411.html
e2: paving the way
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/c7c68/e2_paving_the_way.html
e2: growing energy
e2: state of resolve
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/5b77a/e2_videosstate_of_resolve.html
e2: coal and nuclear
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/c925d/
e2: art and science of Renzo Piano
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/3ef7e/
e2: druk white school in Ladakh
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/8d0ed/e2_druk_white_school_ladakh.html
e2: green for all
http://physics.hpa.edu/groups/apenvironmentalscience/weblog/19565/e2_green_for_all.html
e2: energy
e2 assigned 2020:
green apple
green for all
energy for a developing world
art and science of renzo piano
harvesting the wind
coal and nuclear
growing energy
portland: sense of place
food miles
druk white lotus school in ladakh
next:
bogota: building a city
china-red to green
paving the way
state of resolve
green machine (chicago)
gray to green
deeper shades of green
Homework:
kWh problems:
From Past AP exams:
apes hw
module 36 nuclear energy p.443 1-5
ch. 12 review p. 447 1-17, FR 1-3
Practice math and graphing, p. 446 1,2
mod 37 conservation, efficiency, renewable energy
mod 38 biomass and water
mod 39 solar, wind, geothermal, hydrogen
mod 40 planning our future
