Why the Welfare Uprating Bill deserves to be defeated

Osborne's plan to cut benefits will force more of the poorest families to choose between heating and eating.

After weeks of increasingly fractious debate, MPs will vote today on the government’s Welfare Benefits Uprating Bill, which enshrines in law George Osborne’s plan to raise benefits by 1 per cent per year for the next three years, rather than in line with price increases. With the support of almost all Conservative and Liberal Democrat MPs, the bill will easily pass the House of Commons (Labour, to its credit, will vote against it) but here are four reasons why it deserves to be defeated.

1. It will force even more of the poorest families to choose between heating and eating

By raising benefits by 1 per cent, rather than in line with inflation, which stood at 2.2 per cent in September 2012 (the month traditionally used to calculate benefit increases), the coalition will leave the poorest families even more vulnerable to fluctuations in food and energy prices. Inflation is forecast by the Office for Budget Responsibility to be 2.6 per cent in September 2013 and 2.2 per cent in September 2014, meaning that those families affected will have suffered a cumulative loss of four per cent of income by the end of the period. For many, this will mean being forced to choose between heating their home and feeding their family.

As the Institute for Fiscal Studies reported yesterday, 2.5 million households without someone in work will lose an average of £215 per year in 2015-16, while seven million households with someone in work will lose an average of £165 per year. If, as in recent years, inflation rises faster than expected, these losses will be even greater.

2. It will damage the economy by reducing real incomes

When wages are stagnant and unemployment is high, benefit payments automatically increase in order to limit the fall in consumer demand. While government borrowing rises as a result, these "automatic stabilisers" have long been recognised as an essential tool of economic policy. In October 2012, George Osborne remarked: "We have never argued that you stop what economists call the automatic stabilisers operating - the lower tax receipts and extra government payments [such as higher benefits] that follow if, for example, the global economy turns down." Since those on low incomes are forced to spend, rather than save, what little they receive, they automatically stimulate growth.

But Osborne’s decision to cap benefit increases at 1 per cent will reduce the effectiveness of the automatic stabilisers as payments will now fall, rather than rise, in line with inflation, reducing real-terms incomes. As a result, Britain’s anaemic economy will be even more prone to recession.

3. Low wages aren't a reason to cut benefits

In seeking to justify the bill, the Conservatives have repeatedly highlighted the fact that in recent years benefits have risen faster than private sector wages (see their latest poster). Since 2007, the former have increased by an average of 20 per cent (in line with inflation), while the latter have increased by 11.4 per cent.

But this is an argument for increasing wages (for instance, by ensuring greater payment of the living wage), not for cutting benefits. Many of those whose wages have failed to keep pace with inflation rely on in-work benefits such as tax credits to protect their living standards. The government's decision to cut these benefits in real-terms (60 per cent of the real-terms cut falls on working families) will further squeeze their disposable income.

When Iain Duncan Smith says that benefits have risen faster than wages, he is really complaining that wages have risen more slowly than inflation (and are expected to continue to do so until at least 2014). But rather than prompting the government to slash benefits, this grim statistic should encourage it to pursue a genuine growth strategy that ensures more people have access to adequately paid employment.

Finally, while benefits have increased faster than wages in the last five years, this is a temporary quirk caused by the recession. Until now, their value relative to wages has plummeted. In 1979, unemployment benefit was worth 22 per cent of average weekly earnings. Today, it is worth just 15 per cent.

4. There are fairer ways to reduce the deficit

The coalition isn't wrong when it says the deficit, which stood at £121.6bn last year, needs to be reduced (although at a pace commensurate with the state of the economy). But there are fairer ways to raise revenue than cutting benefits for the poorest workers and jobseekers. While reducing welfare payments, the government is simultaneously cutting the top rate of income tax on earnings over £150,000 from 50p to 45p, a measure that will benefit the average income-millionaire by £107,500 a year. Were the government to reverse this measure, it could expect to raise around £3bn a year, more than enough to fund inflation-linked rises in benefits.

Even in the first year of the 50p rate, when temporary forestalling meant many avoided it (for instance, by bringing forward income to 2009-10, the year before the new rate took effect - a trick they could only have played once), the tax raised an extra £1.1bn. This alone is enough to meet the annual cost of increasing benefits in line with inflation (the government expects to save £0.9bn in 2014-15 by capping increases at 1 per cent). But rather than balancing the budget on the backs of the richest (just 1.5 per cent earn more than £150,000), the government has chosen to do so on the backs of the poorest.

George Osborne leaves 11 Downing Street on 7 January 2013 in London. Photograph: Getty Images.

George Eaton is political editor of the New Statesman.

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Inside Big Ben: why the world’s most famous clock will soon lose its bong

Every now and then, even the most famous of clocks need a bit of care.

London is soon going to lose one of its most familiar sounds when the world-famous Big Ben falls silent for repairs. The “bonging” chimes that have marked the passing of time for Londoners since 1859 will fall silent for months beginning in 2017 as part of a three-year £29m conservation project.

Of course, “Big Ben” is the nickname of the Great Bell and the bell itself is not in bad shape – even though it does have a huge crack in it.

The bell weighs nearly 14 tonnes and it cracked in 1859 when it was first bonged with a hammer that was way too heavy.

The crack was never repaired. Instead the bell was rotated one eighth of a turn and a lighter (200kg) hammer was installed. The cracked bell has a characteristic sound which we have all grown to love.

Big Ben strikes. UK Parliament.

Instead, it is the Elizabeth Tower (1859) and the clock mechanism (1854), designed by Denison and Airy, that need attention.

Any building or machine needs regular maintenance – we paint our doors and windows when they need it and we repair or replace our cars quite routinely. It is convenient to choose a day when we’re out of the house to paint the doors, or when we don’t need the car to repair the brakes. But a clock just doesn’t stop – especially not a clock as iconic as the Great Clock at the Palace of Westminster.

Repairs to the tower are long overdue. There is corrosion damage to the cast iron roof and to the belfry structure which keeps the bells in place. There is water damage to the masonry and condensation problems will be addressed, too. There are plumbing and electrical works to be done for a lift to be installed in one of the ventilation shafts, toilet facilities and the fitting of low-energy lighting.

Marvel of engineering

The clock mechanism itself is remarkable. In its 162-year history it has only had one major breakdown. In 1976 the speed regulator for the chimes broke and the mechanism sped up to destruction. The resulting damage took months to repair.

The weights that drive the clock are, like the bells and hammers, unimaginably huge. The “drive train” that keeps the pendulum swinging and that turns the hands is driven by a weight of about 100kg. Two other weights that ring the bells are each over a tonne. If any of these weights falls out of control (as in the 1976 incident), they could do a lot of damage.

The pendulum suspension spring is especially critical because it holds up the huge pendulum bob which weighs 321kg. The swinging pendulum releases the “escapement” every two seconds which then turns the hands on the clock’s four faces. If you look very closely, you will see that the minute hand doesn’t move smoothly but it sits still most of the time, only moving on each tick by 1.5cm.

The pendulum swings back and forth 21,600 times a day. That’s nearly 8m times a year, bending the pendulum spring. Like any metal, it has the potential to suffer from fatigue. The pendulum needs to be lifted out of the clock so that the spring can be closely inspected.

The clock derives its remarkable accuracy in part from the temperature compensation which is built into the construction of the pendulum. This was yet another of John Harrison’s genius ideas (you probably know him from longitude fame). He came up with the solution of using metals of differing temperature expansion coefficient so that the pendulum doesn’t change in length as the temperature changes with the seasons.

In the Westminster clock, the pendulum shaft is made of concentric tubes of steel and zinc. A similar construction is described for the clock in Trinity College Cambridge and near perfect temperature compensation can be achieved. But zinc is a ductile metal and the tube deforms with time under the heavy load of the 321kg pendulum bob. This “creeping” will cause the temperature compensation to jam up and become less effective.

So stopping the clock will also be a good opportunity to dismantle the pendulum completely and to check that the zinc tube is sliding freely. This in itself is a few days' work.

What makes it tick

But the truly clever bit of this clock is the escapement. All clocks have one - it’s what makes the clock tick, quite literally. Denison developed his new gravity escapement especially for the Westminster clock. It decouples the driving force of the falling weight from the periodic force that maintains the motion of the pendulum. To this day, the best tower clocks in England use the gravity escapement leading to remarkable accuracy – better even than that of your quartz crystal wrist watch.

In Denison’s gravity escapement, the “tick” is the impact of the “legs” of the escapement colliding with hardened steel seats. Each collision causes microscopic damage which, accumulated over millions of collisions per year, causes wear and tear affecting the accuracy of the clock. It is impossible to inspect the escapement without stopping the clock. Part of the maintenance proposed during this stoppage is a thorough overhaul of the escapement and the other workings of the clock.

The Westminster clock is a remarkable icon for London and for England. For more than 150 years it has reminded us of each hour, tirelessly. That’s what I love about clocks – they seem to carry on without a fuss. But every now and then even the most famous of clocks need a bit of care. After this period of pampering, “Big Ben” ought to be set for another 100 or so years of trouble-free running.

The Conversation

Hugh Hunt is a Reader in Engineering Dynamics and Vibration at the University of Cambridge.

This article was originally published on The Conversation. Read the original article.