It’s time-out for leap seconds: an expert explains why the tiny clock adjustments will be paused from 2035

Meeting in Versailles, France, on Friday, the Bureau International des Poids et Mesures (BIPM) has called time-out on “leap seconds” – the little jumps occasionally added to clocks running on Coordinated Universal Time (UTC), to keep them in sync with Earth’s rotation.

From 2035, leap seconds will be abandoned for 100 years or so and will probably never return. It’s time to work out exactly what to do with a problem that has become increasingly urgent, and severe, with the rise of the digital world.

Why do we have leap seconds?

Roll back to 1972, when the arrival of highly accurate atomic clocks laid bare the fact that days are not exactly 86,400 standard seconds long (that being 24 hours, with each hour comprising 3,600 seconds).

The difference is only in milliseconds, but accumulates inexorably. Ultimately, the Sun would appear overhead at “midnight” – an indignity metrologists (people who study the science of measurement) were determined to prevent. Complicating matters further, Earth’s rotation, and thus the length of a day, actually varies erratically and can’t be predicted far in advance.

The solution arrived at was leap seconds: one-second corrections applied at the end of December and/or June on an ad hoc basis. Leaps were scheduled to ensure the timekeeping system we all use, Coordinated Universal Time (UTC), is never more than 0.9 seconds away from the Earth-tracking alternative, Universal Time (UT1).

But all this was before computers ruled the Earth. Leap seconds were an elegant solution when first proposed, but are diabolical when it comes to software implementations.

This is because a leap second is an abrupt change that badly breaks key assumptions used in software to represent time. Base concepts such as time never repeating, standing still, or going backward are all at risk – as well as other quaint notions like each minute lasting exactly 60 seconds.

Leaping into danger

Question: what’s worse than mixing computers and leap seconds? Answer: mixing billions of interconnected networked computers, all trying to execute a leap second jump at (theoretically) the same time, with a great many failing in a wide variety of ways.

It gets better: most of those computers are learning about the impending leap second from the network itself. Better still, almost all are constantly synchronising their internal clocks by communicating over the internet to other computers called time servers, and believing the timing information these supply.

Imagine this scene then: during leap-second madness, some time-server computers can be wrong, but client computers relying on them don’t know it. Or they can be right, but client computer software disbelieves them. Or both client and server computers leap, but at slightly different times, and as a result software gets confused. Or perhaps a computer never receives word that a leap is happening, does nothing, and ends up a second ahead of the rest of the world.

All of this and more was seen in the analysis of timing data from the last leap-second event in 2016.

The ways in which computer confusion over time can impact networked systems are too numerous to describe. Already there are documented cases of significant outages and impacts arising from the most recent leap second events.

More broadly though, consider the networked critical infrastructure our world runs on, including electricity grids, telecommunications systems, financial systems, and services such as collision avoidance in shipping and aviation. Many of these rely on accurate timing at millisecond scales, or even down to nanoseconds. An error of one second could have huge and even deadly impacts.

Time’s up!

In recognition of the growing costs to our computer-based world, the idea of doing away with leap seconds has been on the table since 2015.

The International Telecommunications Union, the standards body that governs leap seconds, pushed back a decision several times. But pressure continued to grow on multiple fronts, including from major tech players such as Google and Meta (formerly Facebook).

The majority of international participants in the vote, including the US, France and Australia, supported the recent decision to drop the leap second.

The Versailles decision is not to abandon the idea of keeping everyday timekeeping (UTC) aligned with Earth. It’s more a recognition that the disadvantages of the current leap second system are too high, and getting worse. We need to stop it before something really bad happens!

The good news is we can afford to wait the suggested 100 years or so. During this time, the discrepancy may grow to as much as a minute, but that’s not very significant if you consider what we endure with daylight savings time each year. The logic is that by dropping the leap second right now, we can avoid its dangers and allow plenty of time to work out less disruptive ways to keep time aligned.

How could we deal with this down the track?

An extreme approach would be to fully adopt an abstract definition of time, abandoning the long-held association between time and Earth’s movements. Another is to make larger adjustments than a second, but far less frequently and with far better preparation to limit the dangers – perhaps in an age where software has evolved beyond bugs.

The decision of how far we’re willing to let things drift before a new approach is decided upon has its own deadline: the next meeting of the Bureau International des Poids et Mesures is set for 2026. In the meantime, we’ll be stuck with leap seconds until 2035.

Since the Earth has surprisingly begun to spin faster in recent decades, the next leap second may, for the first time, involve removing a second to speed up UTC, rather than adding a second to slow it down.

Software for this case is largely already in place, but has never been tested in the wild – so be prepared to leap into the unknown.

Darryl Veitch, Professor of Computer Networking, University of Technology Sydney

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Groundbreaking studies of Earth’s churning oceans recognised at Australia’s most prestigious science prizes this year

This year, Australia’s prestigious Prime Minister’s Prize for Science has been awarded to a physical oceanographer whose work has had a “transformative impact” on our understanding of Earth’s oceans.

Professor Trevor McDougall AC from the University of New South Wales has made major contributions to unveiling the fundamental physics of the ocean.

During his illustrious career, McDougall has discovered previously unknown ocean mixing processes – the turbulent ways seawater churns and irreversibly changes under various conditions.

His discoveries have improved climate models, allowing us to better predict our planet’s fast-changing future.

“The ocean is notoriously difficult to observe; we know more about the surface of the Moon than we do about the seafloor,” McDougall said.

“We study the ocean because it transports a lot of heat from the equatorial regions towards the poles and also because it acts as the thermal flywheel of the climate system.”

A world-leading authority on ocean mixing, McDougall was recognised for his many contributions, including a redefinition of the thermodynamic description of seawater. The latter was accepted by the Intergovernmental Oceanographic Commission in 2009 as a new international standard.

“To receive the Prime Minister’s Prize for Science is an incredible honour, and it’s also an honour for the early career researchers that I’ve been working with for the past ten years,” said McDougall.

“They’ve been integral to some of the results that have been recognised in this prize.”

Predicting sea level rise

Earth’s oceans and their role in climate change are also the focus of another prize recipient this year – physical oceanographer and ocean modeller Dr Adele Morrison from the Australian National University (ANU).

She won the Malcolm McIntosh Prize for Physical Scientist of the Year for her innovative methods of modelling ocean circulation around Antarctica.

Morrison’s research has greatly reduced uncertainty in predicting future sea level rise from Antarctic ice sheet melt, driven by warm ocean currents in the Southern Ocean.

Such work is particularly pertinent to Australia, with 85% of Australians living in places that could soon be affected by rising sea levels.

Morrison hopes to “inspire the next generation of scientists to unravel new discoveries and technologies that limit the impacts of climate change and our transition to a zero-emissions world”.

Molecular diagnostics and solar cell improvements also recognised

Several other researchers and inventors received accolades at the ceremony held on November 21 at Parliament House in Canberra.

• Adjunct Professor Alison Todd and Dr Elisa Mokany, co-founders of the molecular diagnostics company SpeeDx, received the Prize for Innovation. Their highly advanced diagnostic tests have improved diagnosis and treatments for several infectious diseases and cancers.

• The other Prize for Innovation went to Dr Nick Cutmore, Dr James Tickner and Mr Dirk Treasure of the company Chrysos. They have successfully commercialised an X-ray technology that measures the presence of gold and minerals in ore samples.

• Professor Si Ming Man from ANU was awarded the Frank Fenner Prize for Life Scientist of the Year for his work on inflammation and new therapies for inflammatory diseases.

• The Prize for New Innovators went to University of Melbourne’s Dr Pip Karoly, whose unique seizure forecasting technology is improving the lives of millions of people with epilepsy.

• UNSW Associate Professor Brett Hallam was also awarded the Prize for New Innovators, whose discoveries and patented tech have improved solar cell performance by a whopping 10%.

Inspiring our youngest future scientists

Each year, the prizes also include recognition for outstanding achievements in science teaching.

Mr George Pantazis from Marble Bar Primary School in Western Australia was awarded the Prize for Excellence in Science Teaching in Primary Schools for his work integrating First Nations cultural knowledge, including the critically endangered Nyamal language, in the school’s science, technology, engineering, and mathematics (STEM) program.

This “wouldn’t be possible without the support of our teachers and the community, in particular the Nyamal people and their Elders”, said Pantazis.

“This prize is the highlight of my career. I owe it all to the students. Without them, I have nothing.”

The Prize for Excellence in Science Teaching in Secondary Schools went to Ms Veena Nair from Viewbank College, Victoria. She has collaborated with countless academics and industry leaders to not only show students the practical application of STEAM (science, technology, engineering, arts and mathematics) subjects, but also find pathways for them in STEAM careers.

“As a first-generation migrant, I’m deeply thankful to my birth country India, where I got my foundation skills – and to my adopted country Australia, where I was given the wings to fly,” said Nair.

For 23 years now, the Prime Minister’s Science Prizes have been awarded for outstanding achievements in scientific research, research-based innovation and excellence in science teaching. The recipients share a prize pool of $750,000.

This is the first year since 2019 the prizes were held at the Parliament House again, with the 2020 and 2021 events having taken place virtually.

Signe Dean, Science + Technology Editor, The Conversation

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Why do kids bully? And what can parents do about it?

Bullying is unfortunately a common problem in Australian schools, with surveys suggesting one in five teenagers are bullied.

While schools are responsible for ensuring a safe environment, parents are likely to be distressed and unsure about what to do if their child is being bullied.

What exactly is bullying? And how can you help your child if you are concerned?

What is bullying?

Bullying is not just kids being thoughtless or a bit mean. It is not a single act, a mistake, or a mutual disagreement.

Bullying is a repeated act of aggression that is intended to cause harm. It can be physical (harming the person or their belongings), verbal (written and spoken words that cause harm), or social (isolating someone, harming their social standing, or sharing private information).

It is not a “normal” childhood experience – it is targeted and has long-lasting and serious effects for the victim.

These effects include reduced engagement in education and loneliness at school, loss of self-esteem, psychological distress, depressive symptoms, problems with sleep, suicide and suicidal ideation, non-suicidal self-injury and substance abuse.

Bullying can be overt and hidden

Bullying can be overt with observable actions like kicking or name-calling.

Or it can be covert, which is more hidden and can include whispering, exclusion, and rumours. While females and males are equally likely to have experienced bullying and are equally likely to bully, males are more likely to engage in overt physical bullying, while females are more likely to engage in covert bullying through social or cyber behaviour.

A 2019 Mission Australia survey found 21% of young people aged 15–19 reported bullying in the past 12 months. Of those who had been bullied, nearly 80% said the bullying took place at school.

More than 70% said the bullying was verbal, 61% said it was social, 36.5% said it was cyberbulling and about 20% said it was physical.

There is less concrete data about younger children’s experiences of bullying. One reason is they tend to over-report behaviours that would not be defined as bullying. For example, a young child may believe they are being bullied if someone does not want to play with them.

Bullying in this age group can also be viewed by some researchers and educators with less concern as it can be incorrectly labelled as a “normal” part of childhood.

Why do people bully?

Bullying behaviour is often motivated by a desire to meet basic needs for recognition, attention and approval. It is a misguided attempt to increase your popularity by making other people look small.

As UK bullying expert Elizabeth Nassem notes, if children are popular they can

achieve respect, influence, admiration and leadership over their peers – sadly, at the expense of other children.

Another reason young people is bully is because they have been mistreated, experienced shame, or bullied themselves by peers, parents, or siblings. They bully others as an attempt to seek revenge and regain a sense of self-worth.

There are also systemic reasons why young people bully. Schools that don’t adequately supervise students, or have practices or policies that exclude young people with diverse needs can contribute to bullying.

When systems exclude or shame young people, young people within the system are more likely to do the same.

How can parents help?

Bullying is a complex problem. While the onus should be on schools to fix it, parents can be empowered to support their child if they are the victim of bullying.

1. Make space for your child to tell you

Children need to talk about their experiences of bullying in order for parents to act. However, research indicates they often don’t speak out, with one study indicating only 53% of children told their teacher and 67% told their parents they were being bullied.

Young people report they don’t tell because adult responses are often ineffective, insensitive or excessive.

They also say they fear looking weak, making the situation worse, and that adult support might undermine their sense of autonomy. In one study, children explained the main reason they wouldn’t report bullying behaviour was because they “didn’t want to be a little nark” [an informer] and lose the approval of their peers.

These findings suggest it is important to provide space for your children to talk and to be well equipped to respond when they do.

Listen to your child carefully, ask them what role they would like you to play in solving the problem. Assure them you will handle the situation sensitively and with a view to protect them from further harm.

Parents can also praise their children’s maturity and strength when they report bullying and reinforce that it is not “telling-tales” or “weak” when someone’s safety is at risk.

2. Approach school

While it can be distressing to hear your child has been bullied, it is important to process these feelings before you act so you can be calm.

Your first action should be contacting the school to report the bullying. It is not advised to contact the other child’s parents directly. This can escalate the issue, break your relationship with the parent, take away your child’s power, and the other parents may not act – so it leaves the problem unresolved.

When you contact the school, ask for an investigation of the issue and a response timeline. This approach demonstrates that you are open to other perspectives and not seeking to blame anyone. It also indicates you expect an outcome.

You may also request that your child’s identity is not shared to protect them from further retaliation. If there is no response, follow up until there is a resolution. Don’t promise your child you won’t do something because if your child or another is unsafe, you need to intervene to ensure their safety.

3. Provide your child with skills

Your child can also be better equipped by teaching them emotional and interpersonal skills to help them navigate instances of bullying.

These skills include self-regulation, social skills, and problem solving. This can enable your child stay calm and not appear distressed, to be assertive when appropriate, and to consider creative ways of resolving difficult situations.

You can also teach your child safe, practised, and planned responses they can use in instances of bullying. One example of this is “fogging”. This is a technique where the child agrees the bully may or may not be correct but does not get defensive and upset.

For example, a bully may say “your shirt is ugly”. A fogging response would be “you may be right”. With this approach the bully is not getting a reaction to their insult and therefore not meeting their need for attention and control.

4. Gather a support crew

Help your child identify safe spaces, peers and adults they can turn to for support.

They need to understand that in the middle of the bullying behaviour, they have people they can depend on who care for them. Bullies try to isolate. Your child needs to know they are not alone, they are loved, and they are supported.

If this article has raised issues for you or your child, you can call Lifeline on 13 11 14 or Kids Helpline on 1800 55 1800.

Mandie Shean, Lecturer, School of Education, Edith Cowan University

This article is republished from The Conversation under a Creative Commons license. Read the original article.