Sentences with phrase «other object in space»

It is important to realize that a black hole's gravitational field is the same as that of any other object in space of the same mass.

Some satellites, including National Reconnaissance Office imaging satellites, already have warning systems, while air force radar can track boosters or other objects in space.

Space junk is dangerous because one collision could trigger a chain reaction of objects hitting each other, resulting in a thick cloud of debris that would make space travel extremely dangeSpace junk is dangerous because one collision could trigger a chain reaction of objects hitting each other, resulting in a thick cloud of debris that would make space travel extremely dangespace travel extremely dangerous.

Also, there is no substantial law on who can claim what objects or resources in space, beyond the 1967 Outer Space Treaty that declared space open for most kinds of exploitation, so long as «states» clean up their mess, leaving no contamination or dangerous objects that could harm otspace, beyond the 1967 Outer Space Treaty that declared space open for most kinds of exploitation, so long as «states» clean up their mess, leaving no contamination or dangerous objects that could harm otSpace Treaty that declared space open for most kinds of exploitation, so long as «states» clean up their mess, leaving no contamination or dangerous objects that could harm otspace open for most kinds of exploitation, so long as «states» clean up their mess, leaving no contamination or dangerous objects that could harm others.

Let's see, hmmm, even if I didn't have to pay for it or the cleaning of it with my tax dollars, I would object to any monument to any religion being placed in a public space that I pay to keep clear for my and others use.

Because of God's transcendence it would be mythological to refer to God's action in terms appropriate only to objects available, in principle at least, to ordinary sense perception.13 This especially means that one can not speak of God in terms of the categories of time and space; 14 i.e., whatever is predicated of God can not apply only to some particular time and space, but must apply equally to all times and spaces.15 Thus the implication of Ogden's criterion for non-mythological language about God corresponds to his statement of several years ago, that «there is not the slightest evidence that God has acted in Christ in any way different from the way in which he primordially acts in every other event.

Until the nineteenth century, mathematicians traditionally held that the axioms of geometry, arithmetic, and other disciplines could be established as self - evidently true statements about objects in space.

The objects of sense - experience, and in particular those of visual experience, are often passive and bounded in particular regions of space to the exclusion of other regions.

Whitehead's cosmology is based on a double foundation: time - space, on the one hand, and what he (in Process and Reality) calls «eternal objects,» on the other.

In a few thousand years of recorded history, we went from dwelling in caves and mud huts and tee - pees, not understanding the natural world around us, or the broader universe, to being able to travel through space, using reason to ferret out the hidden secrets of how the world works, from physics to chemistry to biology, we worked out the tools and rules underpinning it all, mathematics, and now we can see objects that are almost impossibly small, the very tiniest building blocks of matter, (or at least we can examine them, even if you can't «see» them because you're using something other than your eyes and photons to view them) to the very farthest objects, the planets circling other, distant stars, that are in their own way, too small to see from here, like the atoms and parts of atoms themselves, detected indirectly, but indisputably THERIn a few thousand years of recorded history, we went from dwelling in caves and mud huts and tee - pees, not understanding the natural world around us, or the broader universe, to being able to travel through space, using reason to ferret out the hidden secrets of how the world works, from physics to chemistry to biology, we worked out the tools and rules underpinning it all, mathematics, and now we can see objects that are almost impossibly small, the very tiniest building blocks of matter, (or at least we can examine them, even if you can't «see» them because you're using something other than your eyes and photons to view them) to the very farthest objects, the planets circling other, distant stars, that are in their own way, too small to see from here, like the atoms and parts of atoms themselves, detected indirectly, but indisputably THERin caves and mud huts and tee - pees, not understanding the natural world around us, or the broader universe, to being able to travel through space, using reason to ferret out the hidden secrets of how the world works, from physics to chemistry to biology, we worked out the tools and rules underpinning it all, mathematics, and now we can see objects that are almost impossibly small, the very tiniest building blocks of matter, (or at least we can examine them, even if you can't «see» them because you're using something other than your eyes and photons to view them) to the very farthest objects, the planets circling other, distant stars, that are in their own way, too small to see from here, like the atoms and parts of atoms themselves, detected indirectly, but indisputably THERin their own way, too small to see from here, like the atoms and parts of atoms themselves, detected indirectly, but indisputably THERE.

This precision in fitting the explanation to the evidence should be carried over into philosophy: «The only explanation we should accept as satisfactory is one which fits tightly to its object with no space between them, no crevice in which any other explanation might equally well be lodged; one which fits the object only and to which alone the object lends itself» (CM 11).

Seeing Red Astronomers think MU69 is part of this cold classical population because of its location in the solar system and because its reddish hue matches the Hubble Space Telescope's catalog of thousands of other such objects.

«Observations with multiple space telescopes have revealed that, while other neutron stars spin multiple times a minute, this object rotates only once about every 6.5 hours — making it by far the slowest - spinning star in its class discovered to date,» said David Burrows, professor of astronomy and astrophysics at Penn State.

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?

But until astronomers began finding planets around other stars, no one calculated how swallowing nearby objects would affect a star, says theoretical astrophysicist Mario Livio of the Space Telescope Science Institute in Baltimore.

If virtual particles have gravitational charges, then space - time itself is imbued with a small charge that could be causing objects in the universe to speed away from each other.

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.

So when NASA launched a gamma - ray telescope into space in 2008, astronomers figured the high - energy radiation it detected would point the way to easily identifiable supernova remnants, black holes, and other extroverted objects.

Current thinking is that these tiny diamonds can form in three ways: enormous pressure shockwaves from high - energy collisions between the meteorite «parent body» and other space objects; deposition by chemical vapor; or, finally, the «normal» static pressure inside the parent body, like most diamonds on Earth.

«Other spectroscopic instruments have flown in space before but none have had this programmable multi-object capability that enables observation of up to 100 objects simultaneously, which means much more scientific investigating can get done in less time.

«It is amazing,» says Chris Draper, who works on the heat shield for the European Space Agency's Solar Orbiter — which will go closer to the sun than any other human - made object — at Airbus Defence and Space in Stevenage, UK.

«If you find an ocean beneath the surface of one moon, perhaps the same is true of other icy objects in space,» says Jesper Lindkvist.

How is the spacing of objects (which you investigated in this activity using flip - books) important when making one of these other types of animations?

Other behavioral tests examine sociability, giving the mice the choice to spend time either with other mice or with inanimate objects; risk - taking, in which the mice either venture out on to a high open ledge or hide in a dark enclosed space; and repetitive behavior, where the focus is on excessive grooming or jumOther behavioral tests examine sociability, giving the mice the choice to spend time either with other mice or with inanimate objects; risk - taking, in which the mice either venture out on to a high open ledge or hide in a dark enclosed space; and repetitive behavior, where the focus is on excessive grooming or jumother mice or with inanimate objects; risk - taking, in which the mice either venture out on to a high open ledge or hide in a dark enclosed space; and repetitive behavior, where the focus is on excessive grooming or jumping.

Since the days of Isaac Newton, physicists have sought to describe all the possible ways that three objects can orbit each other regularly in empty space.

It was the first wreck of its kind — two intact spacecraft accidentally plowing into each other at hypervelocity — in the half - century that humans have been launching objects into space.

This is the first detection of the roughly half of the normal matter in our universe — protons, neutrons and electrons — unaccounted for by previous observations of stars, galaxies and other bright objects in space.

It looks to us like there are photons and these other particles, but they might really be manifestations, projections, from a higher - dimensional space, of objects that are more conveniently described in our world by saying, «There is a photon,» or «There is a gluon.»

If and when nuclear explosives are less threatening to us on the ground, there might be reasons to establish an Orion - based Deep Space Force — a small fleet of unmanned vehicles, stationed in high orbit under international control, on standby to deflect meteors or other objects that threaten Earth.

All groups who exercised saw some benefit, and those who exercised more saw more benefits, particularly in improved visual - spatial processing — the ability to perceive where objects are in space and how far apart they are from each other.

General relativity predicts that two massive objects in a tight orbit around each other will spiral in, slowly at first and then faster until they merge, distorting space - time in perturbations that ripple in all directions.

Second, both objects appear to be true point sources in the images, which is evidence that they are real, physical objects in space as opposed to optical glints, stray reflections, or other instrumental signatures in the instrument.

satellite A moon orbiting a planet or a vehicle or other manufactured object that orbits some celestial body in space.

Poggio has long believed that the brain must produce «invariant» representations of faces and other objects, meaning representations that are indifferent to objects» orientation in space, their distance from the viewer, or their location in the visual field.

It's so consistent that Type Ia supernovae are also called standard candles: Once astronomers find one in a region of space, they can use it as a baseline with which to compare other objects around it.

Previously, all astronomy observations have relied on light — which includes X-rays, radio waves, and other types of electromagnetic radiation emanating from objects in space — or on very - high - energy particles called neutrinos and cosmic rays.

The Earth and moon can serve as giant detectors for ripples in the fabric of space - time known as gravitational waves, which are given off by stars, black holes and other massive objects in deep space, researchers say.

Russian space agency Roscosmos has released a video shot from the perspective of Earth, showing our Moon and Sun replaced with other planets in the solar system and well known stars, highlighting the scale and beauty of some of the best known astronomical objects.

At 7:41 a.m. local Livingston time that morning, the Fermi Gamma - ray Space Telescope, LIGO Hanford and the Virgo gravitational wave detector in Europe had all detected two incredibly dense objects called neutron stars smashing into each other — an event some astronomers thought they would have to wait years or even decades to see.

The space community relies on a decades - old system for tracking satellites and other space objects — the radar and optical telescopes in the DoD's Space Surveillance Netspace community relies on a decades - old system for tracking satellites and other space objects — the radar and optical telescopes in the DoD's Space Surveillance Netspace objects — the radar and optical telescopes in the DoD's Space Surveillance NetSpace Surveillance Network.

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.

At a distance of more than 11 billion miles from Earth, there is little question that Voyager has traveled farther in space than any other man - made object.

«If existing objects in space couldn't have combined to make Earth's unique mix of water and other elements, the planet must have formed from — and entirely depleted — an ancient supply of water - rich material that has no modern analog, Drake and Righter argue.»

LIGO is designed to detect the ripples in space - time created by two massive objects orbiting each other.

Paul Chodas, manager of the Center for Near - Earth Object Studies (CNEOS) at NASA's Jet Propulsion Laboratory, tells Newsweek what the space agency and other organizations around the globe are doing to perform this exercise — and how they plan to protect Earth from asteroids in the future.

«Moreover, kinesthetic awareness — your brain's ability to calculate where your body is located in three - dimensional space in relation to other objects around you — helps to improve balance and flexibility.

For those wondering, the board layout and the background objects were created in Sketchup, while the arrows, spaces, and other assets were placed in using Photoshop.

Included in the Space Digital Interactive Bundle are the following Chapters • Chapter 1 - Space - An Introduction • Chapter 2 - Our Solar System • Chapter 3 - The Life and Death of Stars • Chapter 4 - The Seasons and Earth's Tilt • Chapter 5 - The Moon • Chapter 6 - Eclipse Solar and Lunar • Chapter 7 - Galaxies, Other Objects, and the Universe • Chapter 8 - The Immensity of the Universe • Chapter 9 - How Humans Meet Their Needs in Space Digital Interactive Notebook for Google and OneDrive cloud services.

Your notebook pages include the following activities: Fill in the blanks Short Answer Draw and Drop Video and Comprehension Questions Extension Activity Included in the Space Digital Interactive Bundle are the following Chapters • Chapter 1 - Space - An Introduction • Chapter 2 - Our Solar System • Chapter 3 - The Life and Death of Stars • Chapter 4 - The Seasons and Earth's Tilt • Chapter 5 - The Moon • Chapter 6 - Eclipse Solar and Lunar • Chapter 7 - Galaxies, Other Objects, and the Universe • Chapter 8 - The Immensity of the Universe • Chapter 9 - How Humans Meet Their Needs in Space Digital Interactive Notebook for Google and OneDrive cloud services.

Included in the package: 4 weeks of teaching material 9 Power Points totaling 167 slides Teacher and student versions of each power point Student notes in word Lessons Included: Lesson 1 - Space - An Introduction Lesson 2 - Our Solar System Lesson 3 - The Life and Death of Stars Lesson 4 - The Seasons and Earth's Tilt Lesson 5 - The Moon Lesson 6 - Eclipse - Solar and Lunar Lesson 7 - Galaxies, Other Objects and the Universe Lesson 8 - The Immensity of the Universe Lesson 9 - Life in outer space - how humans meet their needs Each lesson includes a student and teacher verSpace - An Introduction Lesson 2 - Our Solar System Lesson 3 - The Life and Death of Stars Lesson 4 - The Seasons and Earth's Tilt Lesson 5 - The Moon Lesson 6 - Eclipse - Solar and Lunar Lesson 7 - Galaxies, Other Objects and the Universe Lesson 8 - The Immensity of the Universe Lesson 9 - Life in outer space - how humans meet their needs Each lesson includes a student and teacher verspace - how humans meet their needs Each lesson includes a student and teacher version.