Loading… Promoted Content7 Universities Where Getting An Education Costs A Hefty PennyIt’s Time To Show How Bad Some Women Can Really BeFantastic-Looking (and Probably Delicious) Bread Art10 Risky Jobs Some Women DoThe Best Cars Of All TimeWhat Is A Black Hole In Simple Terms?The 10 Best Secondary Education Systems In The World5 Of The World’s Most Unique Theme Parks8 Most Interesting Sylvester Stallone MoviesWhich Country Is The Most Romantic In The World?Birds Enjoy Living In A Gallery Space Created For ThemEver Thought Of Sleeping Next To Celebs? This Guy Will Show You Lewandowski, 32, scored 55 goals across the season and becomes the first non-German winner of the award since Kevin De Bruyne took the honour in 2015 at the end of the Belgium midfielder’s Wolfsburg stay. read also:Lewandowski, Haaland tackle one another for Bundesliga title The Poland international told Kicker: “I’m very proud of it. All the more because the expectations of me are getting higher and higher and I try to exceed them every year. “The level is so high that 25 goals per season is considered normal in the Bundesliga. I worked hard for my performance and that of the entire team, which then played superbly, both nationally and internationally.” FacebookTwitterWhatsAppEmail分享 Robert Lewandowski landed Germany’s Footballer of the Year prize on Monday (AEST) as reward for his extraordinary season with Bayern Munich. The award voted for by leading journalists in conjunction with Kicker magazine, went to Lewandowski by a resounding margin. He received 276 votes and Bayern completed a 1-2-3 in the awards as Thomas Muller pulled 54 votes to finish second, five votes ahead of Joshua Kimmich. Bayern conquered all challenges before them in 2019-20, winning a domestic Bundesliga and DFB-Pokal double before going on to triumph in the Champions League, beating Paris Saint-Germain 1-0 in the final.Advertisement
The UV environment of the Beagle 2 landing site: detailed investigations and detection of atmospheric state
December 25th 2003 will see the Beagle 2 lander arrive at the surface of Mars in the Isidis region, allowing for the first time in situ measurements of ultraviolet (UV) flux directly from the surface of Mars through the use of a sensor designed as part of a miniaturised environmental package. The expected conditions the sensor will experience are studied here, and the detection signatures for phenomenon such as dust devils. H2O clouds ands near-surface fogs are presented. The beginning and end of mission surface fluxes show little variation, though the period towards mid-nominal mission does experience a maximum in total daily dose levels. Diurnal profiles are calculated highlighting the effects of increased scattering towards shorter wavelengths. A possible dust storm scenario is presented, and the effect upon component UV fluxes is shown to reverse the relative contributions of direct and diffuse components of the total UV flux. The presence of cloud formation above the landing site will be detectable though the observation of elevated diffuse/direct flux ratios. Near-surface morning fogs show a characteristic ‘dip’ in the morning profile when compared to clear mornings, allowing their detection on cloud-free mornings through post-event analysis of long term data. Predicted Phobos eclipses are investigated at each of the sensor centre wavelengths, and show greatest reduction in relative intensity at short wavelengths. Observations of near-miss eclipse events will also be possible, through monitoring of the diffuse UV flux. Dust devil encounters are shown to create a double minima lightcurve, with the depth of the minima dependent upon the total dust loading of the vortex. The effects of these changing conditions on DNA-weighted irradiances are investigated. Possible dust storms provide the greatest increase in biological protection, whereas expected cloud formations at the Beagle 2 site are found to offer negligible protection. Within just five minutes of landing > 95% of any Bacillus subtilis-like bacteria present on the surface of the craft will have lost viability.