Posts mit dem Label projects werden angezeigt. Alle Posts anzeigen
Posts mit dem Label projects werden angezeigt. Alle Posts anzeigen
01.04.2008
hobbythek - the history
hier wird die vergangenheit wiederbelebt. die hobbythek aus den spätneunzigern als rückblick!
19.03.2008
rechenpower - aber billig
nach 6 jahren wurde mal ein upgrade fällig. da mein altes socket 7 amd system nicht mehr besonders ausbaufähig war gibts gleich einen komplett neuen rechner:
... crysis läuft einwandfrei.
- prozessor intel core2duo 2200 e4500
- mainboard asrock penryn 1600SLI-110dB
- speicher kingston 2048 ddr2 hyperX-kit
- grafik bfg geforce 8800gt 512MB OC
- festplatte western digital 320GB
- gehäuse codgen miditower
- tft samsung syncmaster 2232bw
... crysis läuft einwandfrei.
17.02.2008
11.09.2007
pyweek#5 we have release: theophopya
nach einer woche abendlichem basteln: unser pyweek-entry ist fertig und wurde übermittelt!
http://www.pyweek.org/e/metalab/
theophopya.pdf
description:
In theophobia („TP“) two players battle against each other in two very distinct roles:
- one player acts as „avatar“ trying to dodge the other players attacks. the avatar can score and earn more time. If time runs out players change roles
- the other player acts as „god“ - attacking the avatar and to drain time and trying to prevent the avatar player from scoring.
28.07.2007
bending a roland tr626
um interessantere sounds aus meiner alten tr626 zu holen startete ich eine kleine bending - aktion.
original tr626 mod burnkit2600/thom
tr626 bendwiki
manuals
die geöffnete tr626 mit an den soundchip angelöteten drähten.
nicht alle pins sind angeschlossen. damit nix kaputt geht.
die drähte kann man gut übers batteriefach rausführen.
mit steckbrett schaut das dann so aus.
jetzt fehlt noch ein frontend dann gibt das ganze ein super teil für liveacts!
original tr626 mod burnkit2600/thom
tr626 bendwiki
manuals
die geöffnete tr626 mit an den soundchip angelöteten drähten.nicht alle pins sind angeschlossen. damit nix kaputt geht.die drähte kann man gut übers batteriefach rausführen.mit steckbrett schaut das dann so aus.jetzt fehlt noch ein frontend dann gibt das ganze ein super teil für liveacts!
05.11.2003
diploma thesis: scanning ion conductance microscope
this is my diploma thesis.
its about a special type of probe microscope: the scanning ion conductance microscope.
SICMthesis.pdf (in english)
The principle of the scanning ion conductance microscope (SICM) was invented
at the University of Santa Barbara by the Hansma Group AFM Lab.
It belongs to the family of scanning probe microscopes and works with specimen in
conductive solution at room temperature and atmospheric pressure.
The SICM uses conventional patch clamp devices for the measurement of ion
currents. The patch-clamp pipette is used as scanning probe. Due to the functional
principle of sensing ion currents no physical contact to the sample is necessary
during the scan. The movement of the scanning probe is accomplished by a piezo
actuator.
The microscope is able to visualize highly irregular surfaces in a non-destructive
and deformation-free way and produces three-dimensional pictures of the specimen.
As opposed to other kinds of technical microscopes the SICM provides the
advantage of the ability to visualize living cells in their natural environment without the need to damage or kill them. The specimen needs only enough fixation to
prevent them from drifting. Even dynamical processes on the cell surface can be
measured.
Applications of the SICM range from corrosion research, quality control and
examination of technical and biological membranes to specialized medical and
pharmaceutical topics regarding cell and ion-channel behavior.
The SICM is an excellent research tool with an array of promising applications
in the fields of Biology, Micro- and Nanotechnology.
its about a special type of probe microscope: the scanning ion conductance microscope.
SICMthesis.pdf (in english)
The principle of the scanning ion conductance microscope (SICM) was invented
at the University of Santa Barbara by the Hansma Group AFM Lab.
It belongs to the family of scanning probe microscopes and works with specimen in
conductive solution at room temperature and atmospheric pressure.
The SICM uses conventional patch clamp devices for the measurement of ion
currents. The patch-clamp pipette is used as scanning probe. Due to the functional
principle of sensing ion currents no physical contact to the sample is necessary
during the scan. The movement of the scanning probe is accomplished by a piezo
actuator.
The microscope is able to visualize highly irregular surfaces in a non-destructive
and deformation-free way and produces three-dimensional pictures of the specimen.
As opposed to other kinds of technical microscopes the SICM provides the
advantage of the ability to visualize living cells in their natural environment without the need to damage or kill them. The specimen needs only enough fixation to
prevent them from drifting. Even dynamical processes on the cell surface can be
measured.
Applications of the SICM range from corrosion research, quality control and
examination of technical and biological membranes to specialized medical and
pharmaceutical topics regarding cell and ion-channel behavior.
The SICM is an excellent research tool with an array of promising applications
in the fields of Biology, Micro- and Nanotechnology.
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