Spread Some Christmas Cheer When You Play the Newark and Sherwood Community LotteryPosted on: Tuesday, November 1, 2022
Sign up and support a good cause today and not only will you be in with the chance of winning weekly cash prizes of up to £25,000, but if you enter before Saturday 17 December, you will be in with the chance of winning a £1,000 John Lewis gift card, all for just £1 a week!
From stylish homewares to the latest fashions and top-of-the-line tech; whatever is on your Santa list, you’ll find it at John Lewis! Spread some Christmas cheer this December - know that you are making a real difference to a good cause and have the chance of winning £1,000 to finish off your Christmas shopping!
Councillor Tim Wendels, Portfolio Holder for Homes and Health at Newark and Sherwood District Council, said: ‘It’s rewarding to hear that lots of good causes in the district are taking advantage of the community lottery and are seeing an influx of funds thanks to the scheme.
‘Now more than ever good causes rely on a steady income each month and the more residents that take part the more these groups will get. If you’re part of a small group or good cause and you’re not part of the lottery I encourage you to sign up today!’
Tickets are just £1 in the weekly draw, and you can choose exactly which good cause you would like your money to go to. More of your money goes to your chosen cause than with any other major lottery – you can see the exact breakdown, where every penny goes, on our website.
Unlike larger lotteries, the majority of your ticket purchase comes back into the community and the odds of winning a prize are much better, at an amazing 50:1. It really is a win-win: even if you don’t win a cash prize you can be content in knowing that you are making a real difference!
Since its launch the Newark and Sherwood Community Lottery has raised thousands of pounds for small charities -so why not join in? Visit our website to see which good causes you can support, and buy a ticket today: www.newarkandsherwoodlottery.co.uk/