Gardai apprehend drug driver in Raphoe

first_img Community Enhancement Programme open for applications Google+ Previous articleDerry City set to boost squad with new facesNext articleHSE to set out plan for tackling hospital overcrowding News Highland Important message for people attending LUH’s INR clinic Loganair’s new Derry – Liverpool air service takes off from CODA By News Highland – November 14, 2019 Twitter Facebook Pinterest WhatsApp Gardai apprehend drug driver in Raphoe Google+center_img Pinterest Homepage BannerNews Nine til Noon Show – Listen back to Monday’s Programme News, Sport and Obituaries on Monday May 24th WhatsApp RELATED ARTICLESMORE FROM AUTHOR Arranmore progress and potential flagged as population grows Twitter Gardai have arrested a man after discovering a car behaving ‘dangerously’ in the Raphoe area.The incident happened in the early hours of this morning.Gardai from Raphoe were on routine patrol earlier this morning when they observed the car.They stopped the car and it was subsequently seized after it was discovered the driver didn’t have a driving licence or insurance.Following a drugs test, the motorist also tested positive for having cannabis in his system.He now faces a court appearance on a number of charges.A Garda Spokesperson is meanwhile urging all road users not to take risks on the road. They say that while roads always pose a threat, the risk is heightened further at this time of year.They are also reminding the public to never drive under the influence of drugs or alcohol and adhere to the rules of the road. Facebooklast_img read more

The annual variation in quiet time plasmaspheric electron density, determined from whistler mode group delays

first_imgWhistler mode group delays from the VLF Doppler experiment at Faraday, Antarctica (65°S, 64°W) show an annual variation that has a maximum in December and a minimum in June/July. Assuming signal propagation at constant L (L = 2.5), this implies an annual equatorial electron density (Neq) variation, with December values 3 times higher than in June (during solar minimum—1986). This annual variation in Neq can be modelled from the combined ƒƒoF2medians at each end of the field line (Argentine Islands and Wallops Island), by assuming that diffusive equilibrium is maintained from the F2 layer to the equator over long (≥ 1 month) time scales during quiet magnetic conditions. The use of this model enables the longitude dependence of the annual Neq variation to be investigated. ƒƒoF2data from two other pairs of near-conjugate stations at ∼ 50°E and ∼ 180°E suggest that there are probably no other regions where there are such large annual variations in Neq at L = 2.5. Whistler mode group delays from a similar VLF Doppler experiment at Dunedin, New Zealand (45.8°S, 170.5°E) show an annual variation that is much smaller, and in agreement with the model results at that longitude. At Faraday during solar maximum conditions, the phase of the annual variation is similar to that observed at solar minimum, but the amplitude is smaller, the December–June ratio in Neq being about 2:1.last_img read more