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The interior of a raised module. Every module is 48x48 and raised 2 bricks (or 6 plates). The technic cross inside keeps the baseplate from bending and twisting.
Dental module supplies and complete instruction manual for treating dental emergencies in the field. Module comes heat sealed in a resealable bag for easy access and storage.
Contents:
1 Mouth Mirror
1 Dental floss, 12 yd
3 Orasol Packet
1 Clove Oil (Eugenol)
1 Wax Stick
1 DenTemp (Zinc Oxide & Clove Oil)
1 Spatula
10 Cotton Pellets
3 Gauze Dressing, 3"x3", 2's
1 ActCel Hemostatic Gauze, 2"x2"
5 Cotton Rolls
1 Tweezers
4 Toothpicks
8 Ibuprofen, 200 mg Tablet
2 Nitrile Gloves, Large
2 Nitrile Gloves, Medium
1 Hazardous Waste Bag
1 Instructions
8" x 6" x 1".
4 oz.
This shot shows the trackage as it will be modeled, although the main will be double track. The intersecting track through the middle will be modeled as abandoned-ripped out, but you can see how the trackage has been realigned from the interchange track to service a siding.
An unused lunar module. It was made as a back-up just in case something happened to any of the others. The food court is behind the glass, yum yum. Another picture I took while Mom was in the bathroom.
Smithsonian National Air and Space Museum
Steven F. Udvar-Hazy Center
Developed by the European Space Agency, Spacelab was a modular laboratory system installed in the payload bay of the Space Shuttle orbiter. During Spacelab missions in the 1980s and 1990s, the Shuttle served as an intermittent space station for research conducted by scientists and astronauts. The laboratory module, a pressurized cylindrical room connected by a tunnel to the crew cabin, was Spacelab's primary element. It was outfitted with racks containing subsystems, computers, work stations, stowage lockers, supplies, equipment, and experiments that varied from mission to mission.
Two laboratory modules were flown on a total of 16 missions from 1983 through 1998. This one, Module #1, was used nine times, first on the Spacelab 1 mission in 1983 and last on the Microgravity Science Laboratory missions in 1997. NASA transferred it to the Museum in 1998 when the Spacelab program ended.
EtCO2 Modules
www.ekingst.com/products/etco2-modules/
The end-tidal carbon dioxide modules (etco2 modules) independently developed and produced by Kingst can be used with multi-parameter patient monitors, ventilators and anesthesia machines for monitoring of real-time ETCO2 concentration, inhaled CO2 concentration, respiratory rate, inspiratory and expiratory times.
Types of Capnography EtCO2 Module
Mainstream EtCO2 Capnography Module Capno-M
A mainstream end-tidal carbon dioxide monitoring sensor, it has a unique sample cell protects internal NDIR components from pollution.
Sidestream EtCO2 Capnography Module Capno-S
A side stream EtCO2 sensor, accurate and durable, suitable for various complex environments.
Mainstream EtCO2 Capnography Module Capno-M+
A product that can be used for both intubated and non-intubated patients, breaking through the limitation that mainstream modules can only be used for intubated patients.
Sidestream EtCO2 Capnography Module Capno-S+
A side stream EtCO2 sensor, accurate and durable, suitable for various complex environments. Compatible with multiple protocols.
Understanding Capnography EtCO2 Module
Kingst's end-tidal carbon dioxide (ETCO2) modules are widely used in the operating room, ICU and emergency department, and can be used to monitor whether the position of the endotracheal intubation is correct, whether the spontaneous breathing is restored, whether the parameter settings during mechanical ventilation are reasonable, and whether the cardiopulmonary resuscitation is effective, etc. Kingst's products have the characteristics of quick response, high accuracy, good quality and stable performance.
Mainstream Vs Sidestream Capnography
ETCO2 Monitoring with mainstream VS side stream CO2 Sensors
Mainstream CO2 sensor
Judging the position of endotracheal intubation
On the patient'airway- quick response
There are neonatal, pediatric and adult adapters available
Side stream CO2 Sensor
Can be used for both intubated and non-intubated patients
The sensor is not directly connected in the ventilation circuit
Sampling without intubation,non-invasive monitoring
Shots from the NMRA National Train Show 2010 in Milwaukee. This is Walther's new LAUPT station diorama at their booth.
A session this evening with my Module 2 portrait model Vanessa. This time I have her running.
The rest of my photos from this session can be found here if you have the time to look
Some images taken for module 5. ..Fill the frame with an interesting natural or man-made pattern or texture that works in black & white.
Other than resizing they are straight from the camera.
DIY Reverb module based off of schematic published by Tom Whitwell; laid out on a breadboard and mounted to a spare Europanel. Drives an Accuronics spring tank (see other pic).
Interior of the sensor module. This module is added to the resource scout to augment it's sensor capability. The antenna array also provides the scout with enhanced communications.
The module here is shown in post-splash down configuration. The three balloons were inflated after hitting the sea to ensure the module remained upright. The inflatable ring was attached once Navy divers reached the module.
Finally got the trackplan hammered out, now have to finish weathering the track and get it on the roadbed and ballast it. This shows how the junction would have looked at one time. The main will be double tracked, and the intersecting line will be modeled as abandoned/out of service.
the other module picture shows how the trackage has been realigned to service a siding off the abandoned track.