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Tinder launches ‘Face to Face’ video calls

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tinder launches face to face video calls

Locked down singles in Britain looking for love on Tinder, one of the world’s most popular dating apps, can now video chat with their matches. 

Tinder had announced it is rolling out its ‘Face to Face’ feature to its global customer base today. 

To prevent creeps and weirdos exploiting the feature to berate or harass their matches, video calling only becomes available when both parties opt in. 

It is designed to be used to compliment and boost conversation once a spark has been established. 

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Tinder had announced it is rolling out its 'Face to Face' feature today to its users around the world. Unlike other video call apps and platforms, Tinder's Face To Face feature sees both participants with an equal split of the screen

Tinder had announced it is rolling out its 'Face to Face' feature today to its users around the world. Unlike other video call apps and platforms, Tinder's Face To Face feature sees both participants with an equal split of the screen

Tinder had announced it is rolling out its ‘Face to Face’ feature today to its users around the world. Unlike other video call apps and platforms, Tinder’s Face To Face feature sees both participants with an equal split of the screen 

To prevent creeps and weirdos exploiting the feature to berate or harass their matches, video calling only becomes available when both parties opt in. It is designed to be used to compliment and boost conversation once a rapport has been established

To prevent creeps and weirdos exploiting the feature to berate or harass their matches, video calling only becomes available when both parties opt in. It is designed to be used to compliment and boost conversation once a rapport has been established

To prevent creeps and weirdos exploiting the feature to berate or harass their matches, video calling only becomes available when both parties opt in. It is designed to be used to compliment and boost conversation once a rapport has been established

Tinder has trialled the feature in 13 countries, including some US states, France, Australia and Brazil. 

The company says it received positive feedback from users regarding the feature and as such has decided to roll the feature out worldwide. 

In-person dating is all but impossible in the current coronavirus-stricken world, leaving singletons in a tricky spot when it comes to finding a partner. 

Tinder believes adding video calls to its app can help people who are either shielding, self-isolating or in quarantine.

But, dating apps are often grounds for abuse, something which could be worsened by video calls. 

As a result, Tinder has taken precautions to ensure both parties are as protected as possible. 

To video chat, users aren’t required to exchange phone numbers and must opt-in in order to initiate, with the agreement of both users needed to start a video call.  

Once both parties have agreed, they can simply tap a button on the right corner of the screen to begin. 

A screen then appears which outlines the guidelines users must agree to, which includes: no nudity, no hate speech and ‘no activity involving minors’.   

Once this is agreed, the video call splits the screen into two equal halves, unlike other video chat tools like FaceTime.

After the video call is concluded users will also be prompted answer whether they would have a video call again and may report someone if they do anything inappropriate.

Users who are reported for misconduct on the app will be swiftly removed, Tinder says. 

Only HALF of Tinder users have only ever been on ONE face-to-face date

Tinder claims to have made 30 billion matches to date, but many of those connections did not go beyond the digital world.

A new analysis found that many users do not meet their potential mate in-person and the chances of finding someone interested in a long-term relationship are very slim.

Researchers discovered that users need a very large number of matches in order to have just a few meetups – as only 50 percent of users met one match face-to-face. 

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Tinder said it won’t keep records of calls and moderation will be based on reports from users with disciplinary action being taken on a case-by-base basis.

‘We’re excited to share that our Face to Face feature is rolling out to our global community after receiving positive feedback from our members who have had early access to it,’ said Rory Kozoll, Head of Trust and Safety Product at Tinder. 

‘This adds to our growing list of features built focused on member safety throughout their dating journey, like Photo Verification, Safety Center and our offensive message detection technology.’

The feature comes less than a week after Facebook expanded its ‘Dating’ feature to Europe and the UK.

Facebook Dating is an opt-in feature that allows users to create a profile that’s separate from their main Facebook account. 

The feature lets users indicate their interest in potential matches in the local area, send messages and go on ‘virtual dating’ video calls. 

It also includes the Secret Crush tool, which lets users select up to nine of their existing Facebook friends that they’re interested in and matches them up if the feelings are reciprocated and both people have a dating profile on the app. 

The service, which was launched in the US in September 2019, is rolling out to 32 European countries including the UK, Ireland, France and Germany.       

This post first appeared on dailymail.co.uk

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Climate change could bring the start of Autumn forward by almost a week

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climate change could bring the start of autumn forward by almost a week

The start of autumn could begin a week sooner in the future due to climate change causing trees to capture more carbon and drop their leaves earlier in the year. 

For decades scientists expected temperate trees would shed their leaves gradually later in the year – making autumn later as average temperatures rise worldwide.

Early observations seem to show this was happening over the past few decades – driving a longer growing season that could held slow the rate of climate change. 

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier.  

The new discovery means instead of autumn starting up to three weeks later, it will start between three and six days earlier over the course of the century.

Early observations seem to show this was happening over the past few decades - driving a longer growing season that could held slow the rate of climate change.

Early observations seem to show this was happening over the past few decades - driving a longer growing season that could held slow the rate of climate change.

Early observations seem to show this was happening over the past few decades – driving a longer growing season that could held slow the rate of climate change.

The presence of leaves on deciduous trees marks the changing of the seasons – and the period of time in which trees store carbon from the air.

Warning winters cause spring leaves to emerge earlier and it a widespread example of a climate-change impact, according to the team behind the study. 

The timing of when the leaves fall is harder to spot. There might be limits to how much greenhouse gas a tree can use or store in a single year, explained Dr Zani.

If all carbon needs are met, leaves might fall earlier rather than later in the autumn. 

Changes in the growing-season of trees greatly affect global carbon balance, Zani explained, but it is difficult to predict future patterns.

This is due to the fact that the environmental drivers of leaf ageing aren’t well understood by scientists. 

Autumn shedding in temperate regions like the UK is an adaptation to stressors – such as cold weather and a common assumption is that if you warm the air up this would allow leaves to persist for longer and fix more atmospheric carbon. 

Dr Zani and colleagues used long-term observations from dominant Central European tree species from 1948 to 2015 and experiments designed to modify carbon uptake to evaluate the related impacts. 

The study showed an increased growing-season in spring and summer due to more CO2, light and higher temperatures will lead to earlier leaf shedding – not later.

This is likely because roots and wood cease to use or store leaf-captured carbon at a point – making leaves costly to keep.

The researchers used the data to build a model to improve autumn prediction under a business-as-usual climate scenario – that is one where no efforts are made to slow the rate of climate change by keeping global average temperature from rising.

The model forecasts the possibility of autumn leaf-dropping dates becoming earlier over the rest of the century rather than later – as previously assumed.

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier

Dr Zani said: ‘Changes in the growing-season lengths of temperate trees greatly affect biotic interactions and global carbon balance.

‘Yet future growing-season trajectories remain highly uncertain because the environmental drivers of autumn leaf deterioration are poorly understood.’

Accounting for increases in spring and summer productivity due to rising carbon uptake improved the accuracy of predictions by up to 42 per cent.

‘These findings demonstrate the critical role of sink limitation in governing the end of seasonal activity and reveal important constraints on future growing-season lengths and carbon uptake of trees,’ said Zani.

The results ‘substantially lower our expectations of the extent to which longer growing seasons will increase seasonal carbon uptake in forests,’ she added.

 

The presence of leaves on deciduous trees marks the changing of the seasons - and the period of time in which trees store carbon from the air.

The presence of leaves on deciduous trees marks the changing of the seasons - and the period of time in which trees store carbon from the air.

The presence of leaves on deciduous trees marks the changing of the seasons – and the period of time in which trees store carbon from the air.

The researchers pointed out the universality of this pattern in other forest types remains unknown – they can only say for certain it applies to temperate regions.

They note an important next avenue of research is implementing such growing-season length constraints across a wider range of systems. 

Dr Christine Rollinson, a tree scientist at The Morton Arboretum in Illinois, who was not involved in the study, said it shows the forest is not a bottomless carbon sink.

‘Thus, whereas trees and forests remain one solution for mitigating the impacts of climate change, they cannot be the sole means of response.

‘A diverse portfolio of actions that include emissions reductions and tree conservation and planting is essential to mitigate anthropogenic carbon emissions and climate change.’

The findings have been published in the journal Science

This post first appeared on dailymail.co.uk

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Climate change could bring the start of Autumn forward by almost a week

Published

on

By

climate change could bring the start of autumn forward by almost a week

The start of autumn could begin a week sooner in the future due to climate change causing trees to capture more carbon and drop their leaves earlier in the year. 

For decades scientists expected temperate trees would shed their leaves gradually later in the year – making autumn later as average temperatures rise worldwide.

Early observations seem to show this was happening over the past few decades – driving a longer growing season that could held slow the rate of climate change. 

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier.  

The new discovery means instead of autumn starting up to three weeks later, it will start between three and six days earlier over the course of the century.

Early observations seem to show this was happening over the past few decades - driving a longer growing season that could held slow the rate of climate change.

Early observations seem to show this was happening over the past few decades - driving a longer growing season that could held slow the rate of climate change.

Early observations seem to show this was happening over the past few decades – driving a longer growing season that could held slow the rate of climate change.

The presence of leaves on deciduous trees marks the changing of the seasons – and the period of time in which trees store carbon from the air.

Warning winters cause spring leaves to emerge earlier and it a widespread example of a climate-change impact, according to the team behind the study. 

The timing of when the leaves fall is harder to spot. There might be limits to how much greenhouse gas a tree can use or store in a single year, explained Dr Zani.

If all carbon needs are met, leaves might fall earlier rather than later in the autumn. 

Changes in the growing-season of trees greatly affect global carbon balance, Zani explained, but it is difficult to predict future patterns.

This is due to the fact that the environmental drivers of leaf ageing aren’t well understood by scientists. 

Autumn shedding in temperate regions like the UK is an adaptation to stressors – such as cold weather and a common assumption is that if you warm the air up this would allow leaves to persist for longer and fix more atmospheric carbon. 

Dr Zani and colleagues used long-term observations from dominant Central European tree species from 1948 to 2015 and experiments designed to modify carbon uptake to evaluate the related impacts. 

The study showed an increased growing-season in spring and summer due to more CO2, light and higher temperatures will lead to earlier leaf shedding – not later.

This is likely because roots and wood cease to use or store leaf-captured carbon at a point – making leaves costly to keep.

The researchers used the data to build a model to improve autumn prediction under a business-as-usual climate scenario – that is one where no efforts are made to slow the rate of climate change by keeping global average temperature from rising.

The model forecasts the possibility of autumn leaf-dropping dates becoming earlier over the rest of the century rather than later – as previously assumed.

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier

However, a new, large-scale study of European trees by the Swiss Federal Institute of Technology has found this trend has started to reverse and leaves are falling earlier

Dr Zani said: ‘Changes in the growing-season lengths of temperate trees greatly affect biotic interactions and global carbon balance.

‘Yet future growing-season trajectories remain highly uncertain because the environmental drivers of autumn leaf deterioration are poorly understood.’

Accounting for increases in spring and summer productivity due to rising carbon uptake improved the accuracy of predictions by up to 42 per cent.

‘These findings demonstrate the critical role of sink limitation in governing the end of seasonal activity and reveal important constraints on future growing-season lengths and carbon uptake of trees,’ said Zani.

The results ‘substantially lower our expectations of the extent to which longer growing seasons will increase seasonal carbon uptake in forests,’ she added.

 

The presence of leaves on deciduous trees marks the changing of the seasons - and the period of time in which trees store carbon from the air.

The presence of leaves on deciduous trees marks the changing of the seasons - and the period of time in which trees store carbon from the air.

The presence of leaves on deciduous trees marks the changing of the seasons – and the period of time in which trees store carbon from the air.

The researchers pointed out the universality of this pattern in other forest types remains unknown – they can only say for certain it applies to temperate regions.

They note an important next avenue of research is implementing such growing-season length constraints across a wider range of systems. 

Dr Christine Rollinson, a tree scientist at The Morton Arboretum in Illinois, who was not involved in the study, said it shows the forest is not a bottomless carbon sink.

‘Thus, whereas trees and forests remain one solution for mitigating the impacts of climate change, they cannot be the sole means of response.

‘A diverse portfolio of actions that include emissions reductions and tree conservation and planting is essential to mitigate anthropogenic carbon emissions and climate change.’

The findings have been published in the journal Science

This post first appeared on dailymail.co.uk

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SpaceX launches reusable Falcon 9 rocket booster for SEVENTH time

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spacex launches reusable falcon 9 rocket booster for seventh time

SpaceX has reused a Falcon 9 rocket for a record breaking seventh time during its most recent mission to put another 60 Starlink satellites into orbit.

It comes as the Elon Musk-owned space launch firm is preparing for the first high altitude test flight of its mammoth Starship prototype spaceship – dubbed SN8. 

Launched from Cape Canaveral in Florida at 02:13 GMT this morning, the Falcon 9 flight was the seventh time that particular first stage booster had been used.

This beat the previous record for a booster of six trips and helps Musk in his mission to bring down the cost of launching payloads from the Earth by reusing equipment.

The Falcon 9 launched from Cape Canaveral Air Force Station in Florida in the early hours of this morning carrying the 16th batch of Starlink satellites

The Falcon 9 launched from Cape Canaveral Air Force Station in Florida in the early hours of this morning carrying the 16th batch of Starlink satellites

The Falcon 9 launched from Cape Canaveral Air Force Station in Florida in the early hours of this morning carrying the 16th batch of Starlink satellites

SpaceX was able to recover the booster from the Atlantic Ocean using a drone flight – which means it may be able to fly for an eighth time in the future.

The booster wasn’t the only part of the Falcon 9 to be reused during this flight – that brings the total of small Starlink internet satellites up to nearly 1,000.

The fairing cover used to protect the payload had also been used before – half on one other trip and another on two different trips before this one, SpaceX confirmed.

Every time SpaceX is able to reuse a component it reduces the cost of getting material into low Earth orbit compared to using parts for the first time.

Research by the Center for Strategic and International Studies found that the average cost of putting 1kg of material in orbit on a SpaceX launch is $2,600.

In comparison, the average cost to put a 1kg object in orbit from a Russian Soyuz was $17,900 and the United Launch Alliance Delta E came in at $177,900 per kg. 

Musk is working to bring that cost down even further with each element of the Falcon 9 they are able to reuse.

Part of that drive to reuse is pushing development of the massive Starship two-stage-to-orbit fully-reusable heavy lift vehicle.

It has been under development since 2012 and is designed to bring the cost of each launch downs significantly by being fully reusable.

A single Falcon 9 launch costs about $51 million if it is reusing components that have flown before – Musk hopes to get the Spaceship launch in at $2 million per trip.

That reality could soon be a step closer as the firm is preparing to send up the latest prototype Starship SN8 on a high altitude test flight.

Musk tweeted that it has already undergone a successful static fire test and that in the next week or so it would fly up to about nine miles into the sky.

This beat the previous record for a booster of six trips and helps Musk in his mission to bring down the cost of launching payloads from the Earth by reusing equipment

This beat the previous record for a booster of six trips and helps Musk in his mission to bring down the cost of launching payloads from the Earth by reusing equipment

 This beat the previous record for a booster of six trips and helps Musk in his mission to bring down the cost of launching payloads from the Earth by reusing equipment

Space X performed the third over all static fire on Starship SN8 Thursday November 12 at its Boca Chica facility in Texas. The next stage is a high altitude test

Space X performed the third over all static fire on Starship SN8 Thursday November 12 at its Boca Chica facility in Texas. The next stage is a high altitude test

Space X performed the third over all static fire on Starship SN8 Thursday November 12 at its Boca Chica facility in Texas. The next stage is a high altitude test

The edge of space is agreed by NASA and others to be 50 miles above sea level but to go into orbit you need to get to at least 100 miles above sea level.

If this latest flight test – that will see the triple Raptor engine fire and lift the 400ft spaceship into the air – is successful, then further, higher tests will likely follow.

November 30 has been provisionally set aside as the date of the high altitude test that will see the spaceship reach the highest it has ever flown.

Musk tweeted: ‘Good Starship SN8 static fire! Aiming for first 15km / ~50k ft altitude flight next week. Goals are to test 3 engine ascent, body flaps, transition from main to header tanks & landing flip.’

The landing is one of the most important aspects – as it needs to be fully reusable to achieve the goals and price per flight set out by the SpaceX team. 

WHAT IS ELON MUSK’S ‘BFR’?

The BFR (Big F***ing Rocket), now known as Starship, will complete all missions and is smaller than the ones Musk announced in 2016.

The SpaceX CEO said the rocket would take its first trip to the red planet in 2022, carrying only cargo, followed by a manned mission in 2024 and claimed other SpaceX’s products would be ‘cannibalised’ to pay for it.

The rocket would be partially reusable and capable of flight directly from Earth to Mars.

Once built, Musk believes the rocket could be used for travel on Earth – saying that passengers would be able to get anywhere in under an hour.

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44DFD4DC00000578 4933944 image a 77 1506734013996

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