Since then heated talk about immigration has only become hotter.
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As the oceans get warmer, global temperatures become hotter and cause even more glaciers to melt.
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"The weather will become hotter and drier into the weekend and fire growth potential remains high," Cal Fire said.
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Along the way the air descends to lower elevations, which causes it to compress and become hotter and drier.
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Passions appear not to have cooled in the wake of the previous election cycle — if anything, they've become hotter.
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At the same time, because of climate change, the state's dry periods have become hotter and drier, increasing fire risk.
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And speech technology has become hotter thanks to the rise of "smart" speakers like the Amazon Alexa, the Google Home, and the Apple HomePod.
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Sucking up so much heat and carbon dioxide has caused the ocean to become hotter much faster than we thought possible, and more acidic.
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That means the hot air wasn't leaving the laptop, causing it to become hotter and run more and more slowly as the laptop tried to protect its electronics.
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The brand, founded in 1994 by James Jebbia to cater to the NYC skater scene, has become hotter than hot with people scrambling to snag its iconic 'box logo' shirts.
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What is new, and derives from climate change, is that the atmosphere has become hotter and wetter, bringing more rain, causing wetter years (2016, for example), which produce more fuel in the form of grass.
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When confronted with inevitable feelings of romantic inadequacies and insecurities, I tried to hoist myself up in the only way I knew how, and the only way society taught me was acceptable: become hotter, cooler, more charming.
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Meanwhile, the atmosphere would be more and more drawn to Jimmy as his mass increased (assuming he doesn't suck it all down at the start!) and that atmosphere which remained would become hotter and hotter along with Jimmy.
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Hunter Jones of the GHHIN said climate scientists expected heatwaves not just to become hotter with global warming, but also to last longer and come closer together, as well as happening earlier and later in the season than now.
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"The cool weather on Wednesday helped firefighters, but it will become hotter and drier starting Friday and into the weekend, and that will be a challenge," said Anthony Brown, a spokesman with the California Department of Forestry and Fire Protection.
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About 3,500 personnel have been deployed to this blaze, and CalFire warns that the fire weather conditions will deteriorate this weekend: "The weather will become hotter and drier into the weekend and fire growth potential remains high," the agency stated on its website.
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As the monsoon period builds towards the end of May, the days become hotter and more humid which makes trekking at lower altitude quite uncomfortable.
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Stellar evolutionary tracks, some showing blue loops in the more massive red giants Most stars on the red giant branch (RGB) have an inert helium core and remain on the RGB until a helium flash moves them to the horizontal branch. However, stars more massive than about do not have an inert core. They smoothly ignite helium before reaching the tip of the red-giant branch and become hotter while they burn helium in their cores. More massive stars become hotter during this phase and stars from about upwards are generally treated as experiencing a blue loop, which lasts on the order of a million years.
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After they reached the top or bottom of the mountain, they had to take a picture. If all 5 members were in the picture, they would get a bonus point. After several hours, it started to become hotter and hotter. Everyone decided to take a break.
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The progenitor for the unusual type II Supernova 1987A was a blue supergiant, thought to have already passed through the red supergiant phase of its life, and this is now known to be far from an exceptional situation. Much research is now focused on how blue supergiants can explode as a supernova and when red supergiants can survive to become hotter supergiants again.
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The climate is tropical, with about nine months of warm to hot rainy weather and the possibility of cyclones and three to four months of cooler, drier weather characterised by winds from the southeast. The water temperature ranges from in winter to in the summer. Cool between April and September, the days become hotter and more humid starting in October. The daily temperature ranges from .
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The climate in most of the ecoregion is Humid continental climate, warm summer (Köppen climate classification (Dfb)). This climate is characterized by large seasonal temperature differentials and a warm summer (at least four months averaging over , but no month averaging over .. The summers become hotter and the winters colder as you move east across the ecoregion, due to the movement towards the center of the continent ("continentality").
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HD 33579 is a white/yellow hypergiant and one of the brightest stars in the Large Magellanic Cloud (LMC). It is a suspected variable star. HD 33579 lies in a part of the Hertzsprung–Russell diagram referred to as the Yellow Evolutionary Void because stars with that combination of luminosity and temperature are extremely unstable. They either expand to become cooler or shed their outer layers completely to become hotter.
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The line between Oceanic and Continental climate in Europe runs in a generally north to south direction. For example, western Germany is more impacted by milder Atlantic air masses than is eastern Germany. Thus, winters across Europe become colder to the east, and (in some locations) summers become hotter. The line between oceanic Europe and Mediterranean Europe normally runs west to east and is related to changes in precipitation patterns and differences to seasonal temperatures.
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In this algorithmic process entropy is transferred reversibly to specific qubits (named reset spins) that are coupled with the environment much more strongly than others. After a sequence of reversible steps that let the entropy of these reset qubits increase they become hotter than the environment. Then the strong coupling results in a heat transfer (irreversibly) from these reset spins to the environment. The entire process may be repeated and may be applied recursively to reach low temperatures for some qubits.
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A star whose initial mass is less than approximately will not become a giant star at all. For most of their lifetimes, such stars have their interior thoroughly mixed by convection and so they can continue fusing hydrogen for a time in excess of 1012 years, much longer than the current age of the Universe. They steadily become hotter and more luminous throughout this time. Eventually they do develop a radiative core, subsequently exhausting hydrogen in the core and burning hydrogen in a shell surrounding the core.
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They cannot lose enough mass to form a white dwarf, so they will leave behind a neutron star or black hole remnant, usually after a core collapse supernova explosion. Stars more massive than about cannot expand into a red supergiant. Because they burn too quickly and lose their outer layers too quickly, they reach the blue supergiant stage, or perhaps yellow hypergiant, before returning to become hotter stars. The most massive stars, above about , hardly move at all from their position as O main-sequence stars.
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Red supergiants are massive stars that have left the main sequence and greatly expanded and cooled. Their high luminosity and low surface gravity means they are rapidly losing mass. The most luminous red supergiants can lose mass quickly enough that they become hotter and smaller. In the most massive stars, this can result in the star evolving permanently away from the red supergiant stage to become a blue supergiant, but in some cases the star will execute a blue loop and return to being a red supergiant.
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The portions of the ecoregion in Germany and western Poland have a climate that is classified as Oceanic climate, subtropical highland variety (Cfb). The eastern part has a climate of Humid continental climate, warm summer (Köppen climate classification (Dfb)). This climate is characterized by large seasonal temperature differentials and a warm summer (at least four months averaging over , but no month averaging over . The summers become hotter and the winters colder as you move east across the ecoregion, due to the movement towards the center of the continent ("continentality").
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These stars also become hotter during core helium fusion, but they have different core masses and hence different luminosities from HB stars. They vary in temperature during core helium fusion and perform a blue loop before moving to the asymptotic giant branch. Stars more massive than about also ignite their core helium smoothly, and also go on to burn heavier elements as a red supergiant. Stars remain on the horizontal branch for around 100 million years, becoming slowly more luminous in the same way that main sequence stars increase luminosity as the virial theorem shows.
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Eventually the hydrogen shell gets too close to the surface and is unable to trigger further pulses from the deeper helium shell, and the hot interior starts to be revealed by the loss of the outer layers. These post-AGB objects start to become hotter, heading towards becoming a white dwarf and possibly a planetary nebula. As a post-AGB star heats up it will cross the instability strip and the star will pulsate in the same way as a conventional Cepheid variable. These are theorised to be the RV Tauri stars.
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Amanda is a frequent media commentator on climate and energy topics. Amanda has spoken in the media on topics such as the Climate Council's Clean Job Plan , linking the Black Summer bushfires and climate change , and energy debates in Australia . For example, SBS covered the Climate Council's report in the weeks before the 2019 federal election. “Heatwaves have become hotter and last longer, while droughts, intense rainfall and bushfire conditions have become more severe,” Ms McKenzie said. “As Australians experience escalating consequences into the future, they are likely to view this period of missed opportunities and failed leadership with deep dismay.
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Also, because the northern hemisphere would be tilted much more towards the sun, it would be physically closer to the sun, thereby increasing the intensity of the sun's rays hitting the northern hemisphere, thereby causing the northern hemisphere to become hotter. Likewise, during winter for the northern hemisphere, there would be fewer hours of daylight because the northern hemisphere would essentially be pointed away from the sun. Fewer daylight hours means less solar radiation hitting the northern hemisphere, especially at higher latitudes, and therefore causing the northern hemisphere to become colder. The same things can also be said about the southern hemisphere, particularly at high latitudes.
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At these speeds, aerodynamic heating caused the airframe's outer layer to become hotter than an oxy-acetylene welding torch. The required acceleration required a new solid fuel mixture that burned ten times as fast as contemporary designs such as the Pershing or Minuteman. The burning fuel and aerodynamic heating together created so much heat that radio signals were strongly attenuated through the resulting ionized plasma around the missile body. It was expected that the average interception would take place at about at a range of after 10 seconds of flight time. Two warheads were designed for Sprint starting in 1963, the W65 at Livermore and the W66 at Los Alamos.
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If they do not explode as a supernova first, they will then lose their outer layers and become hotter again, sometimes going through a number of blue loops before finally reaching the Wolf–Rayet stage. The more-massive stars, initially main-sequence stars hotter than about O9, never become red supergiants because strong convection and high luminosity blow away the outer layers too quickly. 25–60 stars may become yellow hypergiants before either exploding as a supernova or evolving back to hotter temperatures. Above about 60, O-type stars evolve though a short blue hypergiant or luminous blue variable phase directly to Wolf–Rayet stars.
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The ancient Greek / Latin term heliocaminus literally means "solar furnace" and refers to a glass- enclosed sunroom intentionally designed to become hotter than the outside air temperature.MEEF Roman Architectural Glossary During the Second Punic War (218–202 BC), the Greek scientist Archimedes is said to have repelled the attacking Roman ships by setting them on fire with a "burning glass" that may have been an array of mirrors. An experiment to test this theory was carried out by a group at the Massachusetts Institute of Technology in 2005. It concluded that although the theory was sound for stationary objects, the mirrors would not likely have been able to concentrate sufficient solar energy to set a ship on fire under battle conditions.
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Deneb spent much of its early life as an O-type main-sequence star of about , but it has now exhausted the hydrogen in its core and expanded to become a supergiant. Stars in the mass range of Deneb eventually expand to become the most luminous red supergiants, and within a few million years their cores will collapse producing a supernova explosion. It is now known that red supergiants up to a certain mass explode as the commonly seen type II-P supernovae, but more massive ones lose their outer layers to become hotter again. Depending on their initial masses and the rate of mass loss, they may explode as yellow hypergiants or luminous blue variables, or they may become Wolf-Rayet stars before exploding in a type Ib or Ic supernova.
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Very-low-mass stars are fully convective and may continue to fuse hydrogen into helium for up to a trillion years until only a small fraction of the entire star is hydrogen. Luminosity and temperature steadily increase during this time, just as for more-massive main-sequence stars, but the length of time involved means that the temperature eventually increases by about 50% and the luminosity by around 10 times. Eventually the level of helium increases to the point where the star ceases to be fully convective and the remaining hydrogen locked in the core is consumed in only a few billion more years. Depending on mass, the temperature and luminosity continue to increase for a time during hydrogen shell burning, the star can become hotter than the Sun and tens of times more luminous than when it formed although still not as luminous as the Sun.
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