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… public lighting is the single largest source of local government’s greenhouse gas emissions, typically accounting for 30 to 50% of their emissions. There are 1.94 million public lights — one for every 10 Australians — that annually cost A$210 million, use 1,035 GWh of electricity and are responsible for 1.15 million tonnes of CO2 emissions. Disadvantages of low pressure sodium lighting are that fixtures must usually be larger than competing fixtures, and that color cannot be distinguished, due to its emitting principally a single wavelength of light (see security lighting). Due to the substantial size of the lamp, particularly in higher wattages such as 135 W and 180 W, control of light emissions from low pressure sodium luminaires is more difficult. For applications requiring more precise direction of light (such as narrow roadways) the native lamp efficacy advantage of this lamp type is decreased and may be entirely lost compared to high pressure sodium lamps. Allegations that this also leads to higher amounts of light pollution from luminaires running these lamps arise principally because of older luminaires with poor shielding, still widely in use in the UK and in some other locations. Modern low-pressure sodium fixtures with better optics and full shielding, and the decreased skyglow impacts of yellow light preserve the luminous efficacy advantage of low-pressure sodium and result in most cases is less energy consumption and less visible light pollution. Unfortunately, due to continued lack of accurate information,[92] many lighting professionals continue to disparage low-pressure sodium, contributing to its decreased acceptance and specification in lighting standards and therefore its use. Another disadvantage of low-pressure sodium lamps is that some people find the characteristic yellow light very displeasing aesthetically.[citation needed] Over-illumination is the excessive use of light. Specifically within the United States, over-illumination is responsible for approximately two million barrels of oil per day in energy wasted.[citation needed] This is based upon U.S. consumption of equivalent of 18.8 million barrels per day (2,990,000 m3/d) of petroleum.[16] It is further noted in the same U.S. Department of Energy source that over 30% of all primary energy is consumed by commercial, industrial and residential sectors. Energy audits of existing buildings demonstrate that the lighting component of residential, commercial and industrial uses consumes about 20–40% of those land uses, variable with region and land use. (Residential use lighting consumes only 10–30% of the energy bill while commercial buildings’ major use is lighting.[17]) Thus lighting energy accounts for about four or five million barrels of oil (equivalent) per day. Again energy audit data demonstrates that about 30–60% of energy consumed in lighting is unneeded or gratuitous.[18] Report a problem with a street light Current public lighting in Australia, particularly for minor roads and streets, uses large amounts of energy and financial resources, while often failing to provide high quality lighting. There are many ways to improve lighting quality while reducing energy use and greenhouse gas emissions as well as lowering costs.[33] The street lights on motorways and trunk roads are looked after by the Highways Agency, so any faults should be reported using their helpline (0300 123 5000). Kyba et al. (2014 Kyba, C., Hänel, A., & Hölker, F. (2014). Redefining efficiency for outdoor lighting. Energy & Environmental Science, 7, 1806–1809.10.1039/C4EE00566J[Crossref], [Web of Science ®] [Google Scholar]) mention the tricky issue of ‘shifting baseline syndrome’. As nights get brighter, people have a new conception of what ‘normal’ levels of light are, and base their evaluations of acceptable levels of brightness on this. A focus on needs could help to overcome shifting baselines. But, such an approach risks omitting the preferences of local stakeholders, and as such may create technocratic and paternalistic policies. This may contribute to downstream value-level conflicts when regulations are enacted. For example, safety is a central facet of nighttime lighting and an important value intertwined with urban nightscapes. While the correlation between increased lighting and increased safety is contentious, research suggests that lighting influences feelings and perceptions of safety (King, 2010 King, C. (2010). Field surveys of the effect of lamp spectrum on the perception of safety and comfort and night. Lighting Research & Technology, 42, 313–329.[Crossref], [Web of Science ®] [Google Scholar]), and that feelings of fear increase at night (Li et al., 2015 Li, Y., Ma, W., Kang, Q., Qiao, L., Tang, D., Qiu, J., … Li, H. (2015). Night or darkness, which intensifies the feeling of fear? International Journal of Psychophysiology, 97, 46–57.10.1016/j.ijpsycho.2015.04.021[Crossref], [PubMed], [Web of Science ®] [Google Scholar]). Such findings represent a challenge for needs-based nighttime lighting efforts. Attention to the preferences of local stakeholders becomes critical to the creation of regulations that will be supported and successful. The frame creation model discussed above (Dorst, 2015 Dorst, K. (2015). Frame innovation: Create new thinking by design. Cambridge: The MIT Press. [Google Scholar]) is but one approach that incorporates the values and desires of stakeholders; a variety of other participatory or value-focused design strategies could also be effectively utilized to address conflicts of this nature. Humphreys, D. R. 1994. Starlight and time. Green Forest, Arkansas: Master Books. 4. Neumann’s’ Architecture of the Night (2002a Neumann, D. (Ed.). (2002a). Architecture of the night: The illuminated building. New York, NY: Prestel. [Google Scholar]) is arguably the most important recent study of nighttime illumination in architectural history and theory, linking the history of nighttime lighting with the history of modern architecture. Neumann mainly focuses on the esthetic and expressive qualities of ‘illuminated buildings’ throughout the nineteenth and twentieth centuries, providing the first comprehensive catalogue of relevant architectural projects. This is America’s elected leader — and he essentially, based on his first public response, ignored what the real problem is. And although the White House has come around to bipartisan proposals to very slightly improve background checks and ban bump stocks, the compromises amount to fairly small changes to America’s weak gun laws. The Dark-Sky Association was started to reduce the light going up into the sky which reduces visibility of stars (see Skyglow below). This is any light which is emitted more than 90° above nadir. By limiting light at this 90° mark they have also reduced the light output in the 80–90° range which creates most of the light trespass issues. Jackson and Melanie are doing the Young’s Experiment Lab using a red laser pen and a slide with two slits spaced 25 micrometers apart. They project the interference pattern onto a whiteboard located 2.35 m from the slits. They measure the distance from the 3rd bright band on opposite sides of the pattern to be separated by 37 cm. Based on these measurements, what is the wavelength of the red laser light (in nanometers)? (GIVEN: 1 m = 106 mm, 1 m = 109 nm) The question is then whether there can be a meta-inductive method which is “predictively optimal” in the sense that following that method succeeds best in predictions among all competing methods, no matter what data is received. Gerhard Schurz has highlighted results from the regret-based learning framework of Cesa-Bianchi that there is a meta-inductive strategy that is predictively optimal among all predictive methods that are accessible to an epistemic agent (Cesa-Bianchi & Lugosi 2006; Schurz 2008, forthcoming). This meta-inductive strategy, which Schurz calls “wMI”, predicts a weighted average of the predictions of the accessible methods, where the weights are “attractivities”, which measure the difference between the method’s own success rate and the success rate of wMI. With the limitations known, we can next consider how to strengthen practical applications. Operating effectively in such a capacity necessarily means establishing the boundaries or thresholds for lighting considered to be ‘polluting’. If we focus solely on mitigating the negative or adverse effects of artificial nighttime illumination, we must then define what qualifies as negative or adverse, as well as what the acceptable levels of these effects are. And these levels—which will effectively delineate between good and bad lighting—should not be arbitrary or ambiguous. VigRX Plus Maxman Celuraid Muscle testogen TestX Core Zevs TestX Core Zevs erogran power up premium

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