Sentences with phrase «maximie on abundance»
By simply focusing your thoughts and attention on the abundance that is already present in your life, you will literally shift your energy to a positive vibration that will automatically and effortlessly attract even more to be grateful for.
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Streaming shifted television from a world based on scarcity — there are only 24 hours in the day times however many channels there are, and a channel can only show one thing at a time — to one based on abundance: you can watch anything you want at anytime and it can be different from everyone else.
Our prosperity depends heavily on our abundance of natural resources, but we need to focus more on an asset that's equally important to our economic future: our intellectual property.
Pictures of the planet, taken from outer space, have impressed indelibly in our collective psyche, just how beautiful the earth is and how much we depend on her abundance.
Let me look and see if I can find a song... you need a song because the original was a song and music puts it deeper into the subconscious than just words... that puts the emphasis on abundance.
her recipe calls on an abundance of wholesome ingredients without losing that velvet - y, cake - y sponge that's so essential for a really good cupcake.
Correspondence with the Victorian Government on the abundance, population, conservation status or recovery.
Instead of the limp cubes of meat and potatoes you encounter at diners across the country, this recipe cashes in on an abundance of golden, crispy bits.
Catherine Landis, a SUNY - ESF PhD student, is writing her dissertation on the abundance of wildlife that once lived among the forests and salt springs around the lake.
The researchers focused specifically on the abundance of gloomy scales on red maple (Acer rubrum) trees at 26 sites in Raleigh, North Carolina.
Based on the abundance of these cyanobacteria and the rate at which they gobble down radioactive nitrogen in the laboratory, the researchers estimate they account for about 10 % of nitrogen fixation in the ocean.
However, it is important to know whether the response depends on the abundance of grazing animals, particularly reindeer, voles and lemmings, which are very common in tundra ecosystems.
They argue that coral reef managers may be able to take advantage of shocks like tropical storms, periods of cloudy weather or even strong seasonal effects on abundance to restore coral cover on degraded reefs.
The data on abundance of carbon monoxide and hydrogen provide «a new window into star formation in the early universe,» says David Spergel of Princeton University.
This was done based on the abundance of Prevotella bacteria types found in their intestines compared to Bacteroides species.
It may be 96 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Ibukiyama and Arimoto, 2002).
The star may be about only 63 percent as enriched as Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron (D. Gigas, 1986, but more recent findings on Vega's mild underabundance of metals can be found in Ilijic et al, 1998).
The star may be more (132 percent) enriched than as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (see Ups And b at exoplanets.org).
The star may only be around 0.71 to 1.2 times as enriched as Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron (Yoichi Takeda, 2007; Luck and Heiter, 2006, page 3075, Table 3; Allende Prieto et al, 1999, page 30, Table 1 for HR 799; and Cayrel de Strobel et al, 1991, page 280).
It appears to be about 63 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 278).
Based on the abundance of iron to hydrogen, Star A appears to be 35 to 48 percent as enriched as Sol in «metals» — elements heavier than hydrogen and helium (Howard et al, 2014; Berger et al, 2006, Table 5).
It appears to be around 1.1 times as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (exoplanets.org).
It may be from 49 to 100 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 4).
We show that this statistical framework correctly estimates the abundance of false positives already identified around Kepler targets with multiple sets of transit - like signatures based on their abundance around targets with single sets of transit - like signatures.
Information on abundance of clade D zooxanthellae can help managers understand the susceptibility of specific corals to thermal stress and also to identify changes in coral reef health.
It appears to be 54 to 59 percent as enriched as Sol in elements heavier than hydrogen («metals») based on its abundance of iron (Howard et al, 2010, for HD 97658 on Table 1, page 3; Raghavan et al, 2010; and Valenti and Fischer, 2005).
The star may be as much as 1.1 times as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (NASA Star and Exoplanet Database from Valenti and Fischer, 2005; and Cayrel de Strobel et al, 1991, page 295).
The star may be only be 12 to 25 percent as enriched as Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron (Cayrel de Strobel et al, 1991, page 302).
The star may only be around 66 to 141 percent as enriched as Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron (NASA Stars and Exoplanet database; Valenti and Fischer, 2005; Takeda et al, 2002; and Cayrel de Strobel et al, 1991, page 299).
The star may be 1.66 times as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Klaus Fuhrmann, 1998).
According to the California Planet Research Team, Edasich may be slightly more (107 percent) enriched than Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron exoplanets.org, although an earlier reference suggests that it is at least twice as enriched (Cayrel de Strobel et al, 1991, pp. 298 — and 294 to compare Epsilon Virginis with Sol).
It appears to be «super metal - rich,» with around 1.4 to 2.0 times as enriched as Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron (NASA Stars and Exoplanet Database; Feltzing and Gonzales, 2001; and Cayrel de Strobel et al, 2001).
Growing genetically modified corn containing the ampicillin marker gene has no influence on abundance of this gene in soil bacteria (Demanèche and others 2008).
It is about 63 to 68 percent as enriched as Sol in elements heavier than hydrogen (metallicity), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 5).
It appears to be more than twice (2.09 times) as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (exoplanets.org).
Star Ba may be only 76 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 291).
The star appears to be from 89 to 186 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 312).
The star may be only 40 to 105 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 292).
Beta Virginis is nearly 1.4 times as enriched as Sol with elements heavier than hydrogen («metallicity») based on its abundance of iron and may be around 3.2 to 4.1 billion years old (North et al, 2009; Eggenberger and Carrier, 2006; and Thomas Gehren, 1978).
It is only 17 to 32 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron which includes Fe - 0.5 (James B. Kaler, 2002, pp. 21 - 22; and A. S. Gaudun, 1994).
The star may be as as enriched (102 percent) as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 285).
Since 1990, it has been measured to be around 85 to 155 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Hatzes et al, 2006; and Drake and Smith, 1990).
It appears to be only around 44 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron.
It may be 105 to to 112 percent as enriched as Sol with elements heavier than hydrogen («metallicity»), based on its abundance of iron (Porto de Mello and da Silva, 1997; and Cayrel de Strobel et al, 1991, 300).
If you are working the holistic hustle, jumping on the abundance buzz, or generally looking to make it rain in the success department, this celeb - inspired crystal tool kit could be just what you need.
I do have a question as well, I was wondering what your take on the abundance of research coming out that coincides with results from studies such as this one from long time Vegan Christopher Gardner, PhD, assistant professor of medicine at the Stanford Prevention Research Center.
We can be feasting on an abundance of food and yet suffer from malnutrition if our diet lacks the nutrients required for healthy cell development or contains artificial ingredients which can not be processed by ourselves»
A huge part my philosophy and professional approach to nutrition is to focus on abundance, and NOT restriction.
The more I focus on the abundance of my life, the more I learn to appreciate everything I have.
and i hear you on the abundance of sleep needed.