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7 Day Prayer Miracle

7 Day Prayer Miracles is products which depict the life of Amanda Rose, who is living testimony of what the miracle can do in your life. She went through a difficult time in her life but eventually, it came to pass. The most troubling challenges which she went through was the tragic accident which saw her husband bedridden for some time. In addition to that, she had a lot of debts, which was bringing a lot of embarrassment to other people in life. However, after meeting Michael, who shared with her about the prayers, she decided to try the power of the prayer. On the first day when she prayed, she received a call from the landlord who apologized. She received some more miracles in life, and she was a witness what God could do with your life. The product is available on e-Book and comes with a bonus Read more here...

7 Day Prayer Miracle Summary


4.8 stars out of 65 votes

Contents: Ebooks
Author: Amanda Rose
Price: $51.00

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My 7 Day Prayer Miracle Review

Highly Recommended

This is one of the best books I have read on this field. The writing style was simple and engaging. Content included was worth reading spending my precious time.

As a whole, this e-book contains everything you need to know about this subject. I would recommend it as a guide for beginners as well as experts and everyone in between.

The Celestial Inspiration Angelic Guide Path

Celestial Inspiration- Angelic Guide Path is an eBook authored by Dr. David Hawkins, a clinician. The central theme of the work is spirituality of human beings. The book contain real experiences of individuals who benefited from protection and extraordinary restoration. The book helps you get acquainted with the archangels as well as the means within which they can extend help to you without denominational approach. Furthermore, the book will help you do away with feelings of negativity, making it possible to strengthen your faith, hope and love. Significantly, it will link you to your own guardian angel to help attain success in your daily undertakings. To illustrate the significance of angelic beings in human lives, the author use various level of consciousness as quantified in vibration spectrum. Human vibration spectrum ranges from 0 to 1000. The angels' level goes up to 50,000. Being that powerful, they can help human beings remain bonded to the creator. Get a copy of this eBook and sure of reaping maximum benefit from it. Read more here...

The Celestial Inspiration Angelic Guide Path Summary

Contents: Ebooks
Author: David Hawkins
Official Website: www.celestialinspiration.com
Price: $49.95

B A King E Firing and T M Joyce

The earliest information about ocean currents came from measurements of ship drift - the difference between the average velocity of the ship determined by celestial navigation and the average velocity that would have been expected (from dead-reckoning) in the absence of currents. Compilation of ship-drift estimates provided navigational charts of the world's mean surface currents, but no information about the flow beneath the surface, and hence little idea of current transports and the general three-dimensional circulation.

Homing and Orientation in Amphibians

In addition to olfactory cues, visual cues also play an important role in amphibian orientation and migration. There are two main types of visual cues celestial cues and fixed visual landmarks (Sinsch 1990a) (Fig. 1). Fixed visual landmarks are probably important for short-distance piloting (Sinsch 1987 1990b). For instance, Great Crested Newts (Triturus cristatus) use cues in the vicinity of their breeding pond to orient (Malmgren 2002), and Bufo bufo uses visual landmarks to help it maintain a straight course (Heusser 1969). On the other hand, celestial cues may be used by amphibians for compass or Y-axis orientation (Sinsch 1990a). The home shore is an important landmark for amphibians, and many tend to orient 90 degrees to it. This is Y-axis orientation, and it allows amphibians to orient along the most direct route to and from the shore, which is important for breeding migrations (Taylor and Auburn 1978 Stebbins and Cohen 1995 Zug et al. 2001). This type of orientation has been...

Homing and Orientation in Reptiles

In addition to magnetic cues, many other mechanisms have been proposed to explain the orientation abilities of sea turtles. For instance, as in amphibians, olfaction may play an important role in the migration of these animals (Carr 1967 Manton et al. 1972 Bowen et al. 1989 Chelazzi 1992 Papi et al. 2000). Carr (1967) found evidence that sea turtles have an odor memory of at least one year, which led others to suggest that juvenile sea turtles imprint on chemical cues associated with natal beaches, and then use a chemical plume along ocean currents, combined with compass orientation, to guide them to their beach when they return as adults (Lohmann et al. 1997 Papi et al. 2000). However, the role of chemical cues in long-distance navigation is almost unknown, and there is no convincing experimental evidence to support this hypothesis. Furthermore, the straight migration routes of adults are not consistent with tracking a chemical plume, and oceanic currents resulting from trade winds...

The downward solar radiation flux 521 The clearsky flux

The total downward flux of solar radiation Fsw represents a combination of direct beam and diffuse beam components, which together are often termed global radiation. Diffuse radiation is largely isotropic (i.e., the flux is roughly the same no matter what direction it is coming from), although the intensity is higher underneath the portion of the celestial dome nearest the Sun. The fundamental control on the global radiation flux reaching the surface is the TOA (or extraterrestrial) flux. The TOA flux is zonally symmetric. At the North Pole, the TOA flux is zero from the autumnal to spring equinoxes. By contrast, although the solar zenith angle (the angle between zenith and the Sun) at the Pole at local noon on the summer solstice is still a large 66.5 , the attendant 24-hour daylight yields a daily mean TOA flux of 522 W m-2, compared to a value of only 383 W m-2 at the equator. Because of the combined effects of day length and solar zenith angle, the monthly mean TOA flux for...

Pleistocene Glacial Cycles

Seasonal variations in the distribution of insolation over the planet. Gravitational influences from the Moon and other planets (primarily Jupiter and Saturn) introduce systematic, cyclic variations in the Earth-Sun orbit, including changes in (i) the eccentricity of Earth's orbital path around the Sun, (ii) Earth's axial tilt angle, relative to the normal to the plane of the ecliptic, also known as the obliquity, and (iii) the direction of Earth's tilt angle, relative to the celestial sphere. The latter effect, also known as precession, matters because it determines the season when Earth marks its closest approach to the Sun, a time known as perihelion. Orbital conditions change on time scales of 104 to 105 years specifically, 100- and 413-kyr cycles for eccentricity, 41-kyr cycles for the tilt angle, and 19- and 23-kyr cycles for precession.

Ptolemy Claudius Ptolemaeus

The Tetrabiblos, Ptolemy's treatise on astrology, was very popular for predicting horoscopes through celestial positions and was widely translated into Arabic and Latin. The Tetrabiblos was written in general terms that common people could understand. In it, Ptolemy cautioned readers to use astrology as a compilation of astronomical data and not to be overly interpretive of the numerological significance of the astronomical data as was popular at the time. Most historians suggest that Ptolemy compiled the

The Mesopotamians Southwest Asia 3700 bce to 1600 bce

Mesopotamia's cultural heritage, religious-mythological systems, and scientific accomplishments are of great significance to the formation of the modern world. Sumerians invented the wheel in about 3700 bce they also developed a system of mathematics based on the number 60 that became the basis for measuring time in the modern world. They formulated the earliest concepts of algebra and geometry, and their system of weights and measures was used in the ancient world until the Roman period. In addition, the Sumerians mapped many of the celestial constellations in great detail.

Scientific DiscovERIES

Plate Tectonics Climate

Tycho Brahe grew up in a scientific era in which Aristotelian ideas that the universe was unchanging followed the principle of celestial immutability. While based at his observatory at Herrevad, Brahe made many observations on the planets and stars. On November 11, 1572, he made a discovery that changed the thinking about the universe. He observed a very bright star that appeared in the constellation Cassiopeia and showed that no star had been visible in that location before. At first other astronomers suggested that the bright object must be located below the orbit of the Moon, since Aristotle showed that the heavens were unchanging. Tycho

Kobe Japan 1995 magnitude

Diplomat Nicolaus Copernicus is credited with being one of the earliest scientists to propose a scientifically sound model with the Sun as the center of the universe, displacing the Earth from this role in earlier models. His heliocentric model was described in his book De revolutionibus orbium coelestium (On the Revolutions of the Celestial Spheres, 1939), which many regard as the starting point of modern astronomy and the beginning of a revolution in science known as the Copernican revolution.

Subdisciplines Of Modern Astronomy

Celestial objects and is divided into different sub-fields based on the wavelengths being studied. Radio astronomy deals with interpreting radiation received from celestial objects where the radiation has a wavelength greater than one millimeter, and is commonly used to study supernovae, interstellar gas, pulsars, and galactic nuclei. Radio astronomy uses wave theory to interpret these signals, since these long wavelengths are more easily assigned wavelengths and amplitudes than shorter wavelength forms of radiation. Most radio emissions from space received on Earth are a form of synchrotron radiation, produced when electrons oscillate in a magnetic field, although some is also associated with thermal emission from celestial objects, and interstellar gas is typically associated with 21-cm radio waves. The study and analysis of celestial objects at X-ray wavelengths is known as X-ray astronomy. X-ray emitters include some binary star systems, pulsars, supernova remnants, elliptical...

Orbital parameters Obliquity

The directional angle that Earth's rotational axis tilts defines, in part, these extreme cold periods and the relatively warm periods the planet experiences. The rare warm period currently being experienced has led to the rise of human civilization on Earth. The complex interaction of orbital variations, solar intensity, and the unprecedented increase in greenhouse gas concentrations in the atmosphere is yet to be fully understood. While humanity cannot control celestial mechanics, it can modify its own behavior when it comes to greenhouse gases emissions.

History of research of the zone of permafrost and the frozen materials composing this zone

The first stage (from the sixteenth century to the first half of eighteenth century) is that of the first information concerning discoveries of the permafrost and the first attempts to explain the reasons for its existence. There is no doubt, though, that natives of the northern regions and Siberia always knew of its existence. The first data on permafrost (which was termed the 'Russian sphinx' in the West) probably began to appear in the literature from the beginning of the sixteenth century only when the Russians intensified the search for northern shipping lanes from Russia to China. A work from 1598, A Description why there is no Way to sailfrom Archangel to the Chinese State and then to East India, already contains clear views not only about the presence but also about the general reasons for the existence of perennial ice in the Arctic, connected with the small amount of Solar radiation arriving at high latitudes. Approximately at the same time information on the occurrence of...

Orbital parameters Eccentricity

Johannes Kepler (1571-1630) discovered, through astronomical observations, that the Earth moved in an elliptical path around the sun. This could be expressed mathematically, and one of the parameters, eccentricity, ranges between a value greater than zero and a value less than one. A zero value produces a perfectly circular orbit, while unity ensures a parabolic encounter with the sun of a celestial body, such as a comet, that will never return. The smaller the value of eccentricity, the more circular is the orbit. Earth's eccentricity has been measured to be 0.0167 and so its orbit is not quite circular.

Solar flux at the Earths orbit

We can also represent the apparent orbit of the Sun in a geocentric system as shown in Fig. 5.15. P is the pole of the celestial sphere, while the circle YEY'C is the celestial equator. The plane YGY'F is the ecliptic plane that defines the Sun's apparent orbit in an ascending mode from A, now called perigee (corresponding to perihelion for the Earth's orbit), to Y. The ecliptic plane makes an angle e, corresponding to the tilt in the Earth's axis of rotation, with the celestial equator arc GE, and is known as the obliquity of the ecliptic that had a value of eo 23.439 0.13022 radians in the year 2000 AD. The obliquity has varied very slowly on timescales of tens of thousands of years and its current trend can be estimated (in radians) from

Angular Momentum Variations And Earth Rotation

Atmospheric Angular Momentum

As stated above, the Earth rotation, linking the so-called terrestrial and celestial reference frames, is simply a uniform daily rotation of the Earth plus some very minute variations. As with any rotation in our 3-D world, Earth's rotation can be represented as a 3-D vector. (Note that the tensor dimension of the rotation vector in an ra-D space is n(n 1) 2.) The departure of the Earth's rotation from a uniform rotation in space can thus be conveniently divided into two parts (i) the magnitude

Angular distribution of solar radiation under different atmospheric conditions

The angular distribution of skylight from a clear sky is complex it is shown diagrammatically in Fig. 2.4. Because scattering by dust particles, and to a lesser extent by air molecules, is strong in a forward direction, skylight is particularly intense at angles near to the angle of the Sun.928 Radiance from the sky decreases markedly with increasing angular distance from the Sun it reaches its minimum in that region of the celestial

When the wells run dry

The almost desperate move by nations to find crude oil is leading to audacious activities, as well as innovations in the extractive fields. During recent years, the media reported Russia signifying ownership of the North Pole by planting a flag in the seabed there, 4.2km below the surface (BBC, 2007) Claiming ownership by flag planting is an emblem of gaining victory through warfare. We may soon expect to hear that since the US planted a flag on the moon in 1969, they are the owners of that celestial body.

Where index insurance is inappropriate

Finally, when designing index insurance contracts, significant care must be taken to assure that the insured has no better information about the likelihood and magnitude of loss than does the insurer. Farmers' weather forecasts are often highly accurate. Potato farmers in Peru, using celestial observations and other indicators in nature, are able to forecast El Ni o at least as well as many climate experts (Orlove et al. 2002). In 1988, an insurer offered drought insurance in the U.S. Midwest. As the sales closing date neared, the company noted that farmers were significantly increasing their purchases of these contracts. Rather than recognize that these farmers had already made a conditional forecast that the summer was going to be very dry, the company extended the sales closing date and sold even more rainfall insurance contracts, tte company experienced very high losses and was unable to meet the full commitment of the contracts. Rainfall insurance for agriculture in the United...

Tundrataiga Interface

Fig. 5.29 Displacement of the southern border of the Russian lesotundra in the region of Archangel. PBPF indicates the Protection Belt of Pre-tundra Forest that was designated in 1959. SBLZ indicates the Southern Border of the lesotundra in 2002. (Reproduced with permission from Vlassova, 2002.) Fig. 5.29 Displacement of the southern border of the Russian lesotundra in the region of Archangel. PBPF indicates the Protection Belt of Pre-tundra Forest that was designated in 1959. SBLZ indicates the Southern Border of the lesotundra in 2002. (Reproduced with permission from Vlassova, 2002.)

Early Observations And Theories

As early as 1,515* there were well considered theories about the origin of the Gulf Stream. Peter Martyr of Angheira used the necessity for conservation of mass to argue that the Gulf Stream must result from the deflection of the North Equatorial Current hy the American mainland. Explorers had not found any passage which would allow the North Equatorial Current to 11 ow through to the Pacific and thence back around to the Atlantic the only other possibility was that water piled up continuously against the Brazilian coast, and this had not been observed to happen. The North Equatorial Current itself was thought to result in some way from the general westward movement across the heavens of the celestial bodies, which drew the air and waters of the equatorial regions along w ith them. Figure 4.2 Diagram to illustrate how the mean current may be determined from the ship's drift, i.e. the discrepancy between the ship's track as steered using a compass and dead-reckoning, and the course...

Brief History Of Astronomy

Ancient cultures were fascinated with the heavens, and astronomy developed into one of the earliest sciences as these cultures formalized their studies of the night skies. Much of the work of these early astronomers focused on observations and predictions of the motions of objects visible to the naked eye, and some cultures erected large monuments that likely have astronomical significance. Early Jewish, Chinese, and other cultures established calendars based on observations and calculations of the Moon cycles, and these calendars became essential for determining seasons and knowing when to plant crops. By the year 1000 b.c.e. Chinese astronomers had calculated Earth's obliquity to the ecliptic, or the tilt of the planet's axis relative to the orbital plane about the sun. Early astronomers included the study of astrology, celestial navigation, and time calculations


Migration plays a very important role in the lives of many amphibians and reptiles, as it allows them to acquire the resources they need to survive, or to avoid unfavorable environmental conditions. In order to undertake these migrations amphibians and reptiles employ a wide variety of orientation mechanisms, which likely involve the use of olfactory, visual, celestial and magnetic cues. However, the exact mechanisms used by many of these animals are still poorly understood. Furthermore, the migratory routes and patterns of many amphibians and reptiles are not completely known. Such patterns are strongly dependent on a diversity of factors, including phylogeny, body size, physiological and energetic constraints, and especially life history traits. As numerous amphibian and reptile species are highly endangered, it is essential that we develop an understanding of the migratory patterns of these species. This is especially crucial for some taxa, such as sea turtles, whose extensive...


Overall, cloud cover is least extensive during winter and most extensive during summer. This seasonality is well expressed over the central Arctic Ocean and is primarily driven by the seasonality in low-level stratus. By comparison, the Atlantic sector of the Arctic Ocean is quite cloudy for all months. Nevertheless, even mean monthly cloudiness is rather poorly quantified, perhaps only within 5-10 . As reviewed by Curry et al. (1996), there are several reasons for this unsatisfying state of affairs. While cloud fraction (the part of the celestial dome covered by cloud) is a standard variable of synoptic weather reports, spatial coverage of observations is spotty and the measurement itself is somewhat subjective. The most comprehensive surface-based data set for the central Arctic Ocean is still from the Russian NP program. Also, during the long polar night cloud observations are difficult, especially under moonless skies. An analysis by Hahn et al. (1995) of Arctic Ocean cloud...

Lake Eyre

Basin, sedimentary basin A depression in the surface of the Earth or other celestial body is known as a basin. When this depression becomes filled with sediments, it is known as a sedimentary basin. There are many types of basins, including depressed areas with no outlet or with no outlet for deep levels (such as lakes, oceans, seas, and tidal basins), and areas of extreme land subsidence (such as volcanic calderas or sinkholes). In contrast, drainage basins include the total land area that contributes water to a stream. Drainage (river or stream) basins are geographic areas defined by surface slopes and stream networks where all the surface water that falls in the drainage basin flows into that stream system or its tributaries. Groundwater basins are areas where all the groundwater is contained in one system, or flows toward the same surface water basin outlet. Impact basins are circular depressions excavated instantaneously during the impact of a comet or asteroid with the Earth or...

Milankovitch Cycles

Precession is the change in the direction of the Earth's rotational axis, influencing the timing and intensity of the seasons. Often compared to the winding-down of a spinning top, the Earth wobbles on its axis, moving slightly forward as it travels in orbit around the Sun. During its average 26,000-year cycle, the Earth's axis of rotation pivots such, that the celestial poles are shifting, altering the current pole star of Polaris to other stars such as Vega in 14,000 c.E.


Astronomy Astronomy is the study of celestial objects and phenomena that originate outside the Earth's atmosphere. The name is derived from the Greek words astron for star and nomos for law and includes the study of stars, planets, galaxies, comets, interstellar medium, the large-scale structure of the universe, and the natural laws that describe these features. Astronomy is also concerned with the chemistry and meteorology of stellar objects, the physics of motion, and the evolution of the universe through time.

Admired And Honored

Hipparchus may be most famous for his discovery of the precession of the equinoxes through his observations of the Sun and Moon. He published books on precession titled On the Displacement of the Solsticial and Equinoctial Points and On the Length of the Year, and Ptolemy and others later used these works in their celestial observations and catalogs.

Chaos Theory

Poincare noticed that simple nonlinear deterministic systems can behave in a chaotic fashion. While studying the three-body problem in celestial mechanics, he found that the evolution of three planets could be complex and sensitive to their relative initial positions. Other early pioneers in chaotic dynamics from a mathematical viewpoint include G. Birkhoff, M.L. Cartright, J.E. Littlewood, S. Smale, and A.N. Kolmogorov, for a wider range of physical systems. Experimentalists also observed chaotic behaviors in turbulent fluid motion and radio circuits.

Lunar Impact Craters

The Earth's Moon is the closest celestial object, and it is covered by many impact craters, large and small. The lack of water, crustal recycling through plate tectonics, and weathering as on Earth has preserved craters that are billions of years old, providing scientists with a natural laboratory to observe and model impact craters of different sizes and styles. Thousands on thousands of photographs have revealed the great diversity in styles of lunar craters and have yielded insight into the cratering mechanisms responsible for cratering events on Earth. The large num


Patrones Blusas Casa

Recalling resolution 1884 (XVIII), calling upon States to refrain from placing in orbit around the earth any objects carrying nuclear weapons or any other kinds of weapons of mass destruction or from installing such weapons on celestial bodies, which was adopted unanimously by the United Nations General Assembly on 17 October 1963, Convinced that a Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, including the Moon and Other Celestial Bodies, will further the purposes and principles of the Charter of the United Nations,


Alaska's Native peoples historically practiced their own religions and some continue to do so. The Russian Orthodox Church was introduced into Alaska during the Russian colonial period. Much of this church's missionary work was done among the Aleut as well as the Tlingit of the southeast region. The first archdiocese for Kamchatka and America was headquartered in New Archangel (later called Sitka) in 1858. The first American church to begin missionary work in Alaska was the Presbyterian Church. The Presbyterian missionary Sheldon Jackson arrived in 1877, and in addition to the work of conversion also began to address the economic problems of Alaska Natives. The Church of England missionary William Duncan moved from British Columbia, Canada, into southeast Alaska along with a group of 1000 Tsimshian people, establishing a community at Metlakatla on Annette Island. Other missionary groups of historical importance in Alaska include the American Episcopal Church, the Society of Friends...


European settlement of Alaska began with a series of Russian expeditions led by the Danish commander Vitus Bering. On his 1728 expedition he sailed through the Bering Sea, proving that North America was not connected to Asia. On Bering's second expedition in 1841, he landed in Alaska and found the sea otters that would serve as the basis for Russian colonization. At the time of European contact, researchers estimate that about 75,000 people lived in Alaska. The first Russian settlement was at Three Saints Bay on Kodiak Island, which became the Alaskan colonial capital. Other settlements were established along the coast, of which the most important was New Archangel (later called Sitka). New Archangel became the Alaskan colonial capital in 1806 when the Russian-American Company, which was founded in 1799 to exploit the resources of the colony, moved its headquarters there. Colonization, especially under the leadership of the autocratic Aleksandr Baranov, the chief manager or governor...

Stommel Henry 192092

Stommel attended New York City's public schools. He spent one year at Townsend Harris High School but finished high school at Freeport, Long Island, because his family had moved there. Thanks to his receiving a full scholarship, he was able to enroll at Yale University, from where he graduated in 1942. He remained at Yale for two years following graduation, teaching analytic geometry and celestial navigation in the Navy's V-12 program. He also spent six months at the Yale Divinity School, but his lifelong ambivalence toward religion made the ministry an unsuitable vocation for him. In 1944, renowned astrophysicist Lyman Spitzer suggested that Stommel apply for work at the Woods Hole Oceanographic Institution in Woods Hole, Massachusetts an organization that was fast becoming a decisive part of the U.S. war effort. Stom-mel was recruited to work in acoustics and antisubmarine warfare but disliked his assignment and tried to be employed in other areas.

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