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Hearing Fear & Mitochondrial DNA | SciByte 100

chris — Tue, 09 Jul 2013 20:49:08 +0000

We take a look at fear and hearing, legislation about embryos with three parents, a flashlight without batteries, spacecraft updates, viewer feedback, Curiosity news, and as always take a peek back into history and up in the sky this week.

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Show Notes:

Sound and Fear

Researchers are looking into how our emotions can actually affect how we hear and process sound
The study showed that when certain types of sounds become associated in our brains with strong emotions, hearing similar sounds can evoke those same feelings
This phenomenon commonly seen in combat veterans suffering from post-traumatic stress disorder (PTSD)
The Study
Now a pair of researchers has discovered how fear can actually increase or decrease the ability to discriminate among sounds depending on context
The study used emotional conditioning in mice to investigate how hearing acuity (the ability to distinguish between tones of different frequencies) can change following a traumatic event, known as emotional learning
In these experiments animals learn to distinguish between potentially dangerous and safe sounds-called \”emotional discrimination learning.\”
This type of conditioning tends to result in relatively poor learning, but they designed a series of learning tasks intended to create progressively greater emotional discrimination in the mice, varying the difficulty
What They Found
The researchers found that, as expected, fine emotional learning tasks produced greater learning specificity than tests in which the tones were farther apart in frequency
Animals presented with sounds that were very far apart generalize the fear that they developed to the danger tone over a whole range of frequencies
Animals presented with the two sounds that were very similar exhibited specialization of their emotional response
Pitch discrimination abilities were measured in the animals, the mice with more specific responses displayed much finer auditory acuity than the mice who were frightened by a broader range of frequencies
Sound, Fear, and the Brain
Another interesting finding of this study is that the effects of emotional learning on hearing perception were mediated by a specific brain region, the auditory cortex
The auditory cortex has been known as an important area responsible for auditory plasticity
Surprisingly researchers found that the auditory cortex did not play a role in emotional learning
The specificity of emotional learning is controlled by the amygdala and sub-cortical auditory areas
Research shows that amygdala performs a primary role in the processing of memory and emotional reactions
The researchers hypothesize is that the amygdala and cortex are modifying subcortical auditory processing areas.
The sensory cortex is responsible for the changes in frequency discrimination, but it\’s not necessary for developing specialized or generalized emotional responses
Further Reading / In the News
Researchers discover link between fear, sound perception | MedicalXPress

— NEWS BYTE —

DNA Splicing

The Low Down
Structures within eukaryotic cells that convert the chemical energy from food into a form that cells can use
In humans, mitochondrial DNA can be regarded as the smallest chromosome coding for only 37 genes and containing only about 16,600 base pairs
Human mitochondrial DNA was the first significant part of the human genome to be sequenced.
What’s New?
The U.K. government is moving toward allowing a new type of in vitro fertilization that would enable patients with mitochondrial diseases to avoid passing the condition to their children
The technique is controversial, because it involves introducing new DNA into a human embryo
The Department of Health announced that it would draw up draft guidelines to allow fertility clinics to offer the technique
The proposed guidelines would be released for public comment later this year, and Parliament could vote on a final version next year
Mitochondria are the cell\’s power generators, and they carry their own DNA, called mtDNA
Mutations in those genes cause mitochondrial diseases, which can affect various organs, including the heart, liver, eyes, and brain
Such diseases are passed from mother to child, because the egg provides most of an embryo\’s mtDNA
The techniques transfer the nuclear DNA from the sperm and egg of the potential parents into a second egg, provided by a donor who has healthy mitochondria, from which the nuclear DNA has been removed
The technique is still under development and isn\’t yet considered ready to try in humans
Multimedia
YouTube | Mitochondrial DNA | genetree
YouTube | The Four Types of DNA | genetree
Further Reading / In the News
U.K. Government Plans to Allow Mitochondrial Replacement – ScienceInsider | news.ScienceMag.org
Regulator to consult public over plans for new fertility treatments | The guardian | 2012-09-17
Pronuclear transfer in human embryos to prevent transmission of mitochondrial DNA disease | Nature.com | 2010-05
Scientists reveal gene-swapping technique to thwart inherited diseases | Guardian.co.uk | 2010-04-14
Genetically altered babies born | BBC News | 2008-04-26

Student Develops No-Battery Flashlight

Ann Makosinski from Victoria, British Columbia, has an LED flashlight powered by body heat her flashlight has got her into the finalist ranks for the Google Science Fair
The Hollow Flashlight, which works according to the thermoelectric effect-creating electric voltage out of temperature difference
How it Works : The Basics
Thermoelectric effect is the direct conversion of temperature differences to electric voltage and vice-versa
At the atomic scale, an applied temperature gradient causes charge carriers in the material to diffuse from the hot side to the cold side
The flashlight Uses four Peltier tiles and the temperature difference between the palm of the hand and ambient air
It only needs a five degree temperature difference to work and produce up to 5.4 mW at 5 foot candles of brightness
Design
She bought Peltier tiles and tested them to see if they could produce sufficient power to light an LED
While power was not a problem, getting the needed voltage was, as the tiles did not generate enough of the voltage needed
Research and experiments on different designs for the circuit design lead to a circuit that could provide enough voltage when used with a recommended transformer
Final Design
The final design included mounting the Peltiers on a hollow aluminum tube which was inserted in a larger PVC pipe with an opening that allowed ambient air to cool the tube
The palm wrapped around a cutout in the PVC pipe and warmed the tiles.
The result was a bright light at 5 degree Celcius [sic] of Peltier differential
Materials for the flashlight project cost her $26
Google Science Fair
The top winner gets a $50,000 scholarship and trip to the Galapagos Islands
The prize ceremony takes place in September. Winners will be chosen in different age categories-13-14, 15-16, 17-18.
Multimedia
YouTube | The Human Heat Powered Flashlight | smustube
Further Reading / In the News
Student\’s flashlight works by body heat, not batteries | Phys.org

— TWO-BYTE NEWS —

Space Shuttle Atlantis

The Space Shuttle Atlantis exhibition opened at NASA\’s Kennedy Space Center Visitor Complex on June 29
The retired orbiter is displayed at an angle, with its cargo bay doors open and robotic arm outstretched
Atlantis dominates the center of a multistory building that allows views of the orbiter from many angles.
Multimedia
YouTube Space Shuttle Atlantis exhibit set to launch | collectSPACE
Further Reading / In the News
Atlantis Exhibit – Kennedy Space Center | kennedyspacecenter.com
Space Shuttle Atlantis Exhibit \’Incredible,\’ \’Breathtaking\’ | NASA Shuttle Program | Space.com

— SPACECRAFT UPDATE—

Voyager 1\’s Journey, It\’s Not There Yet

Voyager 1 is 11.6 billion miles (18.6 billion kilometers) from the Sun, poised to become Earth\’s first robotic mission to interstellar space
Data from the Voyager 1 spacecraft continues to provide new insight on the outskirts of our solar system
New Publications
In papers published in the journal Science, scientists have provided more clarity on the region they named the \”magnetic highway\” in December 2012.
The new Science papers focus on observations from the summer and fall of 2012 by LECP as well as Voyager 1\’s Cosmic Ray and Magnetometer instruments, with additional LECP data through April 2013.
Voyager has detected, for the first time, low-energy galactic cosmic rays, now that particles of the same energy from inside the bubble around our Sun disappeared
The most dramatic part was how quickly the solar-originating particles disappeared; they decreased in intensity by more than 1,000 times
Voyager\’s Low-Energy Charged Particle (LECP)
Voyager\’s Low-Energy Charged Particle (LECP) instrument, LECP detector, was designed at APL in the 1970s.
It includes a stepper motor that rotates the instrument through 45-degree steps every 192 seconds
It allows it to gather data in all directions and pick up something as dynamic as the solar wind and galactic particles
The device, designed and tested to work for 500,000 steps and last four years, has been working for nearly 36 years and well past 6 million steps
That\’s 12 times the number of steps and 9 times the number of years as of early July 2013
Important to remember
Voyager 1 may be months or years from leaving the solar system
Further Reading / In the News
At the solar system\’s edge, more surprises from Voyager | Phys.org
Voyager 1 Reaches Gateway to the Galaxy – News Watch | newswatch.NationalGeographic.com
News in Brief: Voyager 1 on fast track toward interstellar space | Science News
Voyager 1 Entered Weird Region In Space Last Summer | Popular Science

— VIEWER FEEDBACK —

Did You See This? | Radio Signals from Outside the Milky Way

Sent in From Nick Tanin
Four powerful radio pulses emanating from sources outside of the Milky Way, 5 billion to nearly 11 billion light years away, have been picked up by an international team of astronomers at the Parkes Radio Telescope in Australia
What Was Seen
These bursts gave off more energy in a millisecond than the sun does in 300,000 years
The bursts ranged from 5.5 to 10 billion light-years away, meaning it took the light from some of them 10 billion years to reach Earth. [The Big Bang occurred 13.8 billion years ago]
To determine whether the new signals came from inside or outside the Milky Way scientists studied how the radio waves were affected by the material they pass through
This technique allows these new objects to shed light on the components of space.
As radio waves travel in space, they are stretched and slowed by the ionized material through which they move
Using models, the team concluded that the fast radio bursts, FRBs, traveled billions of light-years – much farther than the edge of Earth\’s galaxy, and likely are located in another galaxy
Although the explosions were brief, the astronomers can pinpoint the bursts\’ locations pretty accurately
They are so bright and narrow that we can limit the size of the emission region at the source to just a few hundred kilometers
No corresponding object could be observed in optical, gamma or X-ray wavelengths, so the explosions\’ origins remain unknown to scientists
Additional observations were performed approximately a year after the FRBs were first spotted, looked at whether the objects continued to produce emission, but the signals appear to be non repeating
Efforts are ongoing at the moment to detect FRBs in close to real time, such that they can be followed up quickly
Have we Observed This Kind of Event Before?
Since there had been only one burst during the last observation seven years ago scientists had wondered if the reading was simply an artifact in the data
Now the four new blips may add weight to that observation
Possible Sources
Intersecting magnetic fields from two neutron stars, extremely dense city-size bodies packing the mass of the sun.
A special kind of supernova orbited by a neutron star could potentially produce radio bursts as the star\’s magnetic field interacts with the explosion of the supernova
Such combinations would be rare
The current leading explanation is that a giant burst from a magnetar, a highly magnetized type of neutron star
Are There Other Events Like This?
These newfound objects allowed the researchers to calculate that an FRB should occur once every 10 seconds
Telescopes capture radio waves from such a small fraction of the sky so one-time radio pulses have been hard to detect
Instruments lack the ultrafast time resolution required to pinpoint the short-lived bursts
Further Reading / In the News
News in Brief: Distant radio-wave pulses spotted | Atom & Cosmos | Science News
Mysterious Extragalactic Explosions Baffle Astronomers | Fast Radio Bursts | Space.com

— CURIOSITY UPDATE —

Moon, Phobos, Gets its Time to Shine
Phobos, the larger of the two moons of Mars, passing overhead, as observed by NASA\’s Mars rover Curiosity
The \”video\” is a series of images centered straight overhead starting shortly after sunset
Phobos first appears near the lower center of the view and moves toward the top of the view
The clip runs at accelerated speed; the amount of time covered in it is about 27 minutes
The 86 frames combined into this clip were taken by the rover\’s Navigation Camera (Navcam) on the 317th Martian day of Curiosity\’s work on Mars (June 28, 2013, PDT)
Multimedia
YouTube | Mars Moon Phobos Seen By Curiosity | VideoFromSpace
Image | Phobos Passing Overhead | mars.jpl.nasa.gov
Image | Curiosity\’s Traverse Map Through Sol 317 | mars.jpl.nasa.gov
Image Galleries at JPL and Curiosity Mulimedia
Social Media
Curiosity Rover @MarsCuriosity
Further Reading / In the News
Phobos Passing Overhead | mars.jpl.nasa.gov

SCIENCE CALENDAR

Looking back

July 14, 1965 : 48 years ago : First Mars close-up photo : The Mariner 4 satellite sent a transmission of the first close-up photograph of Mars. It consisting of 8.3 dots per second of varying degrees of darkness. The transmission lasted for 8.5 hours and depicted the regions on Mars known as Cebrenia, Arcadia, and Amazonis. The satellite was 134 million miles away from earth and 10,500 miles from Mars. The 574-pound spacecraft had been launched at 9:22am on 28 Nov 1964, from Cape Canaveral, FL, by a two-stage Atlas-Agena D rocket. In addition to its camera with digital tape recorder (about 20 pictures), it carried instruments for studying cosmic dust, solar plasma, trapped radiation, cosmic rays, magnetic fields, radio occultation and celestial mechanics

Looking up this week

Keep an eye out for …
Wed, July 10 | Just after sunset | In the West, watch for a thin crescent Moon just above the horizon, to the lower left of Venus
Thurs, July 11 | As twilight fades | The crescent Moon is still low on the western horizon, but now Venus is roughly ~1.5 fist widths (~22-23*) held at arms lengths to the right
Fri, July 12 | Twilight | To the West just slightly above the midpoint of the Moon and Venus you might be able to see Regulus, the brightest star in the constellation Leo and actually two binary stars
Planets
Venus | Gradually rising in altitude to the W-NW in the evening twilight
Mars / Jupiter | Deep in the glow of dawn
Saturn | In the SW after dusk with Spica a little over a fist held at arms length (12*) to the lower right
Further Reading and Resources
Sky&Telescope
SpaceWeather.com
StarDate.org
For the Southern hemisphere: SpaceInfo.com.au
Constellations of the Southern Hemisphere : astronomyonline.org
Royal Astronomical Society of New Zealand : rasnz.org.nz
AstronomyNow
HeavensAbove

The post Hearing Fear & Mitochondrial DNA | SciByte 100 first appeared on Jupiter Broadcasting.

Exoplanet & Bee Venom | SciByte 86

chris — Tue, 19 Mar 2013 20:47:03 +0000

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We take a look at an exoplanets atmosphere, HIV killing bee venom, ancient sundials, viewer feedback, spacecraft updates, Curiosity news, and as always take a peek back into history and up in the sky this week.

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Show Notes:

Exoplanet Atmosphere

A team led by an astrophysicist at the American Museum of Natural History in New York City, has found hints of ammonia, methane, carbon dioxide and acetylene in an exo-planets’ atmosphere in the sharpest spectrum ever obtained of an extrasolar planet
Searching for Exoplanets
In the past, astronomers inferred the existence of exoplanets and their gases by looking for subtle changes in the light streaming from the planet’s star
Now, with improved instruments, a team has detected light coming directly from a planet light-years away
The data have high enough resolution to reveal not only the presence but the abundance of carbon monoxide and water in the planet’s atmosphere
Such information could shed light on how the planet formed
Studies could also reveal the presence of life on a distant planet, but this planet’s size and orbit have already ruled it out as a habitable world
The System
In 2008 the first image of a multi planet system outside the solar system, showing three gas giants orbiting the star HR 8799
The results suggest the HR 8799 system is like a scaled-up Solar System
HR 8799 is about 130 light-years from Earth, in the constellation Pegasus
The planets are scorching hot, making them bright enough for astronomers to detect directly
In 2010, the researchers imaged a fourth planet around HR 8799, a new study focused on one of these planets, HR 8799c.
HR 8799c
Five to 10 times as massive as Jupiter, HR 8799c sits about eight times farther away from its star than Jupiter does from the sun
Because of that great distance, the astronomers could block the star’s light and record infrared light
Even with water present on this world, it is incredibly hostile to life
Like Jupiter, it has no solid surface, and it has a temperature of more than a thousand degree
The Studies
Because different gases absorb and emit light in distinct ways, the team could identify carbon monoxide and water but found no methane, which scientists had thought might be present.
In another new study researchers simultaneously collected infrared light from the atmospheres of all four planets
The chemistry of each planet varies different from anything in our own solar system
Although the teams looked at different wavelengths of light, which pick up different types of molecules, the two studies appear consistent
By peering at just one planet, one team obtained more detailed data that allowed the researchers to get a sense of how much carbon and oxygen is in HR 8799c’s atmosphere
Knowing the ratio of carbon to oxygen in the atmosphere may reveal how the planet formed
Planetary Formation Theories
Astronomers have two competing theories of how planets arise from the disk of gas and dust encircling a young star
In the gravitational instability model, some of the gas and dust suddenly clumps and collapses, simultaneously creating a planet’s core and atmosphere
In this scenario, the chemical composition of a planet should match that of its star
In the other model, known as core accretion, planets are built in two-steps
First, material from the disk accumulates into a core, later the core captures gases swirling in the disk to form an atmosphere.
In this case, the carbon-to-oxygen ratio of the planet may differ from the star because the accretion of cores may deplete the disk of certain elements
What This Planet\’s Data Tells Us
Compared with its star, HR 8799c appears to have slightly more carbon relative to oxygen, suggesting the planet originated via core accretion
It is surmises that when the disk around HR 8799 formed, water froze into particles of ice, the bits of ice then collided to form the planet’s core, leaving behind little water vapor, and therefore less oxygen, when the planet accumulated its atmosphere later on
Other researchers are not convinced by this conclusion saying “We don’t really understand planetary formation enough to make a strong case either way,”
The Future
Either Way the data from both new studies may help astronomers refine their simulations of planetary formation
Not that astronomers have directly imaged planets around three distant stars researchers are poised to capture light from many more planets
Project 1640, is looking for Jupiter-sized planets around some 200 stars
“Ultimately, with better instruments, people will be able to use these methods on Earthlike planets.”
Multimedia
YouTube Remote Reconnaissance of Another Solar System | AMNHorg
Video Clip Nearby Stars with planets| AMNHorg
Video Clip HR 8799 System| AMNHorg
Further Reading / In the News
Exoplanet Atmospheres Provide Clues to Solar System Formation | UniverseToday.com
Distant planets\’ atmospheres revealed | Atom & Cosmos | ScienceNews.org

— NEWS BYTE —

Bees Against HIV

Nanoparticles carrying a toxin found in bee venom can destroy human immunodeficiency virus (HIV) while leaving surrounding cells unharmed
What it Does
Bee venom contains a potent toxin called melittin that can poke holes in the protective envelope that surrounds HIV, and other viruses
The new study shows that melittin loaded onto these nanoparticles does not harm normal cells, because added protective bumpers to the nanoparticle surface
When the nanoparticles come into contact with normal cells, which are much larger in size, the particles simply bounce off
HIV, on the other hand, is even smaller than the nanoparticle, so HIV fits between the bumpers and makes contact with the surface of the nanoparticle, where the bee toxin awaits
The advantage of this approach is that the nanoparticle attacks an essential part of the virus\’ structure. In contrast, most anti-HIV drugs inhibit the virus\’s ability to replicate.
Drawbacks
This anti-replication strategy does nothing to stop initial infection, and some strains of the virus have found ways around these drugs and reproduce anyway.
Where it does work, because it attacks the inherent physical property of HIV, theoretically, there isn\’t any way for the virus to adapt to this treatment
The potential for using nanoparticles with melittin as therapy for existing HIV infections, especially those that are drug-resistant
Other Uses
The hope is that in places where HIV is running rampant, people could use this gel as a preventive measure to stop the initial infection
Since melittin attacks double-layered membranes indiscriminately, this concept is not limited to HIV.
Many viruses, including hepatitis B and C, rely on the same kind of protective envelope and would be vulnerable to melittin-loaded nanoparticles
In addition to antiviral therapy, the paper\’s senior author has shown melittin-loaded nanoparticles to be effective in killing tumor cells.
Further Reading / In the News
Nanoparticles loaded with bee venom kill HIV | MedicalXPress.com

— TWO-BYTE NEWS —

Worlds Oldest Egyptian Sundials

Telling Time in Ancient Egypt
During archaeological excavations in the Kings\’ Valley in Upper Egypt a team of researchers found one of the world\’s oldest ancient Egyptian sundials
During this year\’s excavations the researchers found a flattened piece of limestone (so-called Ostracon) on which a semicircle in black color had been drawn
The semicircle is divided into twelve sections of about 15 degrees each.
A dent in the middle of the approximately 16 centimeter long horizontal baseline served to insert a wooden or metal bolt that would cast a shadow to show the hours of the day
Small dots in the middle of each section were used for even more detailed time measuring
It was found in an area of stone huts that were used in the 13th century BC to house the men working at the construction of the graves, possibly used to measure their work hours
The division of the sun path into hours also played a crucial role in the so-called netherworld guides that were drawn onto the walls of the royal tombs
These guides are illustrated texts that chronologically describe the nightly progression of the sun-god through the underworld.
The sundial could also have served to further visualize this phenomenon.
Multimedia
Image Ancients Egyptian sun dial | Phys.org | Credit: University of Basel
Further Reading / In the News
One of the world\’s oldest sun dial dug up in Kings\’ Valley | Phys.org

— VIEWER FEEDBACK —

ESTCube

Karl Sakrits
Estonia is sending up their first satellite, a CubeSat, made by University students to test the electric solar wind sail
CubeSat
The CubeSat standard for nanosatellites was followed during the engineering of ESTCube-1,
The CubeSat standard has three different sizes corresponding to size 1U, 2U and 3U. Base side lengths are the same but height is 2 to 3 times bigger than 1U CubeSats
Mass is also set in CubeSat standard, the highest possible mass for 1U CubeSat is 1300 grams, 2U CubeSat 2600 grams and 3U CubeSat 4000 grams
CubeSat base side length must be 100.0 +/- 0.1 millimeters and satellite height must be 113.5±0.1 mm
Purpose
Although its main purpose was to educate students, the satellite does have a scientific purpose.
On board of the satellite is an electric solar wind sail (e-sail) which was created by a Finnish scientist Pekka Janhunen, which will be the first real experimentation of the e-sail
Subsystems
ADCS – attitude determination and control system, determines and modifies satellite\’s alignment
CAM – onboard camera for taking pictures of the Earth and the unreeled tether
CDHS – command and data handling system, the satellite\’s main onboard computer
COM – communications system for up- and downlinks
EPS – electrical power system, provides electrical power for the satellite
PL – payload, the satellite\’s experiment module, that contains the tether and everything else related to the experiment
STR – satellite\’s structure
Solar Wind Sail
10 meters of e-sail 50 to 20 micrometers thick wire of high-technology structure so-called Heytether will be deployed from the satellite.
The deployment of the Heytether can be detected by decrease of the satellite\’s speed of rotation or by a on-board camera
To control the loaded solar wind sail elements interaction with the plasma surrounding the earth and the effect it has on the spacecraft spinning speed the spacecraft has two on-board nanotechnologic electron emitters/gun
The electron emitters are connected to the e-sail element and by shooting out electrons it loads the e-sail element positively to 500 volts
The positive ions in the plasma push the e-sail element and have an influence on the satellites rotation speed
The effect of the e-sail is measured by the change in rotation speed
The camera is used to take a picture of Earth and the successfully deployed Heytether.
Mission
ESTCube-1 will be sent to orbit by the European Space Agency\’s rocket Vega in spring of 2013
Half an hour after the satellites deployment from the start capsule satellites antennas will be opened and radio transmitter and important subsystems will be switched on
The first days or weeks will be used to test the satellite and set it to work on full capacity
They will then orient the satellite so the on-board camera will be faced to earth so that they can try to take a picture of Estonia
They will rotate the satellite on an axis with a speed of 1 revolution per second
The E-sail element will deploy from the satellite by a centrifugal force and will confirm the deployment via the on-board camera
Then they will activate the electron emitter and loading the e-sail, measuring the e-sails and Lorentz force by satellites revolutions per second
If possible they will use the negatively charged e-sail to take the satellite off orbit and burn it in the earths atmosphere
Should everything go perfect the mission could be completed within a few weeks to a month
Communication
Communicating with the satellite will be held by two International Amateur Radio Unions three registered frequencies [437.250 MHz, 437.505 MHz]
The maximum possible connection speed is 19,200 bits per second, only to be used when the satellite has been given a specific order
Important satellite parameters will be transmitted every 3 to 5 minutes, and periodic but slow communication can be done on a telegraphic signal
A 9600 baud connection speed and AX.25 standard is used, a slower communication frequency which allow a maximum of 25 kiloherz bandwidth, fast connection will only be used when the satellite has been given a specific
Software
FreeRTOS on the satellite\’s Command and Data Handling System and camera module
TinyOS on the satellite\’s communication module
Financing and costs
This option is the cheapest possibility to send a satellite into orbit is offered by European Space Agency
Estonia is an associated member of ESA most of the launch expenses (about 70,000 euros) will be covered from Estonian member fee for educational expenses
The total expense, with launch cost, for the project are approximately 100,000 euros
Multimedia
YouTube estcube dissection2 | taavi torim
YouTube Packing ESTCube-1 for shipping. Tallinn TV Tower 21.1.2013. | AjattaraQuad
ESTCube.eu | Video Library
Twitter
ESTCube @ESTCube
Further Reading / In the News
ESTCube.eu

— Updates —