Sentences with phrase «observed object in space»

I want to investigate the abstract «image» as something equivalent to an observed object in space.

BOX 15, A-15-6; 30219214 / 734997 SAPA Part B - 1st Draft, c. 1972 Using Numbers - Numbers and the Number Line, JRM Observing - Observing the Weather Measuring - Making Comparisions Using a Balance, JE Alternate Auto - Instructional, Measuring 1 - 4 / Measuring Area, Gillis Classifying - Trees in our Environment, JRM, c. 1972 AAAS - Xerox Film Loops Guide, A11 Exercises - Shapes and Symmetry, Hansen, 1972 SAPA Part B - 1st Draft, 1972 Observing - Observing Color and Color Changes in Plants, HM Communicating - Identifying Objects and their Variations, RN Communicating - Different Kinds of Forces, AHL Communicating - Graphs, JRM Classifying - Observing Living and Nonliving Things, Smith Using Space / Time Classifying - Animals in Our Environment: Part B (alternate) Using Space / Time - Shadows, Smtih Alternate (Autoinstructional)- Using Numbers - Numbers and the Number Line Observing - Observing Soils, JRM SAPA Part B 2nd Draft, 1972 Measuring Area 1 - 4, CCP Measuring 1 - 4, Volume of Solids, Alternate 2, CCP Measuring 1 - 4, Volume of Solids, Alternate 1, CCP Measuring Length 4 - 6, Linear Measurement Using Metric Units, CCP Communicating - Intro to Graphing, JRM Communicating - Pushes and Pulls, AHL Communicating - Identifying Objects and Their Variations, RN Classifying - Trees in Our Environment, JRM Classufying - Observing Living and Nonliving Things, Smith Observing - Observing Color and Color Changes in Plants and Observing Changes in Mold Gardens, HGM Observing (alternate)- Observation, Using Several of the Senses, HGM, c. 1972 Using Numbers - Numbers and the Number Line, JRM Measuring - Making Comparisions Using a Balance, JWE Using Space / Time - Shadows, Smith Using Space / Time Relationships - Time Intervals, HGM Observing 10 - Observing the Weather, JWE Observing - Observing Soils Using Several of the Senses, JRM SAPA Part B Tryout Draft, 1972 Communicating - The Same but Different Observing 10 - Observing the Weather Observing 9A - Observing Soils Observing (alternate)- Using Several of the Senses Observing - Observing Change Classifying - Trees in Our Environment Classifying - Observing Living and Nonliving Things SAPA Part B, Observing - Changes in Molds and Other Plants, c. 1972 SAPA Part B Tryout Draft, 1972 Observing - Observing Changes in Plants Observing - Changes in Mold and Green Plants Measuring - Making Comparisions Using a Balance Measuring Length - Linear Measurement Using Metric Units Measuring Volumes of Solids, 1 - 4 Communicating - Pushes and Pulls Comparing Area, c. 1972 Using Space / Time Relationships - Shadows, 1972 Addition of Postive Numbers, Sums 1 - 99 (not being tried) SAPA Part B 3rd Draft (alternate), Using Numbers - Numbers and the Number Line, 1972 SAPA Part C 1st Draft, 1972 Classifying - Classifying Components of Mixtures, Livermore Inferring 2 - How Certain Can You Be?

With the help of the NASA / ESA Hubble Space Telescope, a German - led group of astronomers have observed the intriguing characteristics of an unusual type of object in the asteroid belt between Mars and Jupiter: two asteroids orbiting each other and exhibiting comet - like features, including a bright coma and a long tail.

Earth - based and space telescopes, including NASA's iconic Hubble Space Telescope, also will be in position to observe the unique celestial obspace telescopes, including NASA's iconic Hubble Space Telescope, also will be in position to observe the unique celestial obSpace Telescope, also will be in position to observe the unique celestial object.

«Finding and publicizing new supernova discoveries is often the weak link in obtaining rapid observations, but once we know about it, Swift frequently can observe a new object within hours,» said Neil Gehrels, the mission's principal investigator at NASA's Goddard Space Flight Center in Greenbelt, Md..

Images from the Deep Space 1 spacecraft show that Comet Borrelly is the darkest object yet observed in the inner solar system, and several spots on its surface are blacker than anything planetary scientists have ever seen.

«This is the only object we have observed from this era,» says Robert Simcoe, the Francis L. Friedman Professor of Physics in MIT's Kavli Institute for Astrophysics and Space Research.

Abstract: Extremely red objects, identified in the early Spitzer Space Telescope observations of the bright - rimmed globule IC 1396A and photometrically classified as Class I protostars Class II T Tauri stars based on their mid-infrared colors, were observed spectroscopically at 5.5 to 38 microns (IRS), at the 22 GHz water maser frequency (GBT), and in the optical (Palomar).

The sources photometrically ide... ▽ More Extremely red objects, identified in the early Spitzer Space Telescope observations of the bright - rimmed globule IC 1396A and photometrically classified as Class I protostars Class II T Tauri stars based on their mid-infrared colors, were observed spectroscopically at 5.5 to 38 microns (IRS), at the 22 GHz water maser frequency (GBT), and in the optical (Palomar).

The Heterodyne Instrument for the Far - Infrared (HIFI) on the Herschel Space Observatory observed three deeply embedded protostars in the low - mass star - for... ▽ More «Water In Star - forming regions with Herschel» (WISH) is a key programme dedicated to studying the role of water and related species during the star - formation process and constraining the physical and chemical properties of young stellar objectin the low - mass star - for... ▽ More «Water In Star - forming regions with Herschel» (WISH) is a key programme dedicated to studying the role of water and related species during the star - formation process and constraining the physical and chemical properties of young stellar objectIn Star - forming regions with Herschel» (WISH) is a key programme dedicated to studying the role of water and related species during the star - formation process and constraining the physical and chemical properties of young stellar objects.

The answer actually applies to many subjects studied in physics and deep - space astronomy — when you can't observe something directly, or you can't explain something you are seeing, you make educated guesses based on what you do see: the effect on other objects.

From the lyric, dark grisaille of Gorky's inner landscapes it grew to epic stature: In 1952 art critic Harold Rosenberg observed that «at a certain moment the canvas began to appear to one American painter after another as an arena in which to act, rather than as a space in which to... «express» an object, actual or imagineIn 1952 art critic Harold Rosenberg observed that «at a certain moment the canvas began to appear to one American painter after another as an arena in which to act, rather than as a space in which to... «express» an object, actual or imaginein which to act, rather than as a space in which to... «express» an object, actual or imaginein which to... «express» an object, actual or imagined.

Lawson's recent approach has been somewhat anthropological, keenly observing the ways we attribute value and agency to inanimate objects, in real and online spaces.

The artist — observing obsessive consumerism and the accumulation of products — finds inspiration in dense interiors such as basements, workshops, storage spaces, and other places where everyday objects — often no longer in use — are jumbled, piled, and stacked.

Hubbard's roots are as a video artist, and in his new video, Screens for Recalling the Blackout, one observes through the videocamera's eye all the objects in his studio space.

What I am after is closer to Braque's idea of «tactile space,» the space felt between the artist / viewer and an observed object; in my case, the painting.