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Sale!
A set of three orthogonal axes (X-red, Y-green, Z-blue) which can be assembled either as a right-handed or a left-handed orthogonal frame. -
Sale!
A calibrated light source capable of illuminating a square object of up to 12×12 cm2 (e.g., one or two adjacent faces of a 1U CubeSat) at different angles of incidence with nearly uniform spatial distribution. Power density can be set either equal to direct sunlight on the Earth’s surface (so-called AM1) or outside the atmosphere (so-called AM0) or other selectable illuminations. -
Sale!
A calibrated light source capable of illuminating a square object of up to 12×35 cm2 (e.g., one or two adjacent faces of a 3U CubeSat) at different angles of incidence with nearly uniform spatial distribution. Power density can be set either equal to direct sunlight on the Earth’s surface (so-called AM1) or outside the atmosphere (so-called AM0) or other selectable illuminations. -
Sale!
A calibrated light source capable of illuminating a square object of up to 25×35 cm2 (e.g., one or two adjacent faces of a 6U/12U CubeSat) at different angles of incidence with nearly uniform spatial distribution. Power density can be set either equal to direct sunlight on the Earth’s surface (so-called AM1) or outside the atmosphere (so-called AM0) or other selectable illuminations. -
Sale!
A calibrated light source capable of illuminating a square object of up to 35×35 cm2 (e.g., one or two adjacent faces of a 9U/18U/27U CubeSat) at different angles of incidence with nearly uniform spatial distribution. Power density can be set either equal to direct sunlight on the Earth’s surface (so-called AM1) or outside the atmosphere (so-called AM0) or other selectable illuminations. -
Two, three of even more Space-Motioner’s SMT01A01 1U Solar Simulator can be assembled together to illuminate larger surfaces, e.g. a 3U or 12U CubeSat, as visible in photo. The photo also shows a SMT11B 3U Fixed Stand which is sold separately. Price on request - Price depends on number of Solar Simulators used. -
Sale!
A triad of orthogonal Helmholtz coils that allow to create a uniform magnetic field, fixed or rotating, inside a sphere of 60 cm in diameter, or a cubic one of 35x35x35 cm3 (27U CubeSat). The Helmholtz Cage can be used both to cancel the Earth's magnetic field and generate an area with a magnetic field very close to zero, and to produce a magnetic field of intensity up to 4G (up to 5G for short periods), oriented at will in space, both fixed and slowly rotating (up to 1 revolution per second). -
A triad of orthogonal Helmholtz coils that allow to create a uniform magnetic field, fixed or rotating, inside a sphere of 60 cm in diameter, or a cubic one of 35x35x35 cm3 (27U CubeSat), without embedded coil controller. The Helmholtz Cage can be used both to cancel the Earth’s magnetic field and generate an area with a magnetic field very close to zero, and to produce a magnetic field of intensity based on user controller, both fixed and rotating.
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A triad of orthogonal Helmholtz coils that allow to create a uniform magnetic field, fixed or rotating, inside a sphere of user-defined size. The Helmholtz Cage can be used both to cancel the Earth's magnetic field and generate an area with a magnetic field very close to zero, and to produce a magnetic field of intensity up to user-defined value, oriented at will in space, both fixed and slowly rotating. -
Sale!
An easy-to-use heater for various testing or teaching applications. -
A set of five Alluminum surfaces, 10x10 cm2 (the size of a 1U CubeSat), painted with the following colors: black, white, red, blue, pure Aluminum They are mainly intended for thermographic measurements and for teaching and measuring the effects of color on thermal heating, thermal absorption and thermal radiation. -
A compact and easy to use cooler based on Peltier cells. Price on request
