№1
many-much
lots of, a lot of-a lot of
some/a few-some-a little
few/isn't many-little/isn't much
any/no-any/no
№2
1some brothers.
2many friends
3many pens
4We haven't got any sisters.
5have got some... books
6much milk
7a few
8very little butter
№3
1no
2some
3no
4some
5much
6lots
7a few
8some
9any
10little
1.has got
2.has got. Hasn't got
3.haven't
4 has got
5 has got
6 have got
Weather forecasts are made by collecting as much data as possible about the current state of the atmosphere (particularly the temperature, humidity and wind) and using understanding of atmospheric processes (through meteorology) to determine how the atmosphere evolves in the future.
However, the chaotic nature of the atmosphere and incomplete understanding of the processes mean that forecasts become less accurate as the range of the forecast increases.
Traditional observations made at the surface of atmospheric pressure, temperature, wind speed, wind direction, humidity, precipitation are collected routinely from trained observers, automatic weather stations or buoys.
During the data assimilation process, information gained from the observations is used in conjunction with a numerical model's most recent forecast for the time that observations were made to produce the meteorological analysis.
Numerical weather prediction models are computer simulations of the atmosphere.
They take the analysis as the starting point and evolve the state of the atmosphere forward in time using understanding of physics and fluid dynamics.
The complicated equations which govern how the state of a fluid changes with time require supercomputers to solve them.
The output from the model provides the basis of the weather forecast.
I.Who visits us on Sundays?
<span>2.Who visited us on Sundays? </span>
<span>3.Who will visit us on Sundays? </span>
<span>4.When does the delegation arrive? </span>
<span>5.What did our students take part in? </span>
<span>6.Where will she teach English? </span>
Вопросы подготовил по тексту.
1. What is the size of the plastic sphere? (4 meters)
2. What does this sphere look like? (It look likes a huge transparent golf ball)
3. What speed does the sphere roll down? (55 kilometres per hour)
4. How many people does this huge ball contain? (2 people)
5. How many litres of water may be thrown inside the sphere?
6. How much does sphereing cost per a person? (35 Euro)
