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Revealed Meghan Markle is officially facing Valentine's Day alone without Prince Harry

For more infomation >> Revealed Meghan Markle is officially facing Valentine's Day alone without Prince Harry new - Duration: 2:59.

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What is a Hydraulic Jump? - Duration: 8:43.

Controlling the flow of water is one of the fundamental objectives of modern infrastructure,

from flooding rivers to irrigation canals, stormwater drainage facilities to aqueducts,

and even the spillways of dams.

So, engineers need to be able to predict how water will behave in order to design structures

that manage or control it.

And fluids don't always behave the way you'd expect.

Hey, I'm Grady, and this is Practical Engineering.

On today's episode, we're talking about one of the most interesting phenomena in open-channel

flow: the hydraulic jump.

This video is sponsored by Nord VPN.

Feel safe online: anywhere, anytime.

More on that later.

Fluid dynamics might sound as complicated as rocket science, but unlike rockets, you

probably already have some intuitions about how water flows.

The study of how water with a free surface behaves, that is not confined within a pipe,

is known as open channel hydraulics.

This field is especially useful in civil engineering where structures can't usually be tested

at scale.

We can't build a dam, cause a flood to see how well the spillway works, and then rebuild

it if the performance isn't up to standards.

Instead, engineers need to be able to predict how how well hydraulic structures will perform

before they're ever constructed.

This is the definition of engineering: to take theoretical knowledge of science and

physics (in this case fluid dynamics), and apply that information to make decisions about

the real world.

One of the most important parameters in fluid dynamics is velocity, or how quickly the water

flows.

Sometimes velocity is a good thing, like when you're trying to move a lot of water quickly,

for example in a flood.

Sometimes velocity is a bad thing, like if you're trying to avoid erosion.

Either way, it's almost always a key criterion when designing hydraulic structures.

But the velocity of flow isn't the only velocity that's important in fluid dynamics.

We also care about the velocity of waves or how quickly pressure disturbances in a fluid

can travel.

If the flow velocity is exactly equal to the wave speed, we call the flow critical.

But it's more likely that these two velocities are different.

Slow, tranquil flow conditions are called subcritical.

In this case, the wave speed is faster than the flow velocity.

You can see that the waves can travel against the flow direction.

Because of this, the depth is controlled by downstream conditions.

You can see that anything I do upstream isn't changing the depth of this flow.

Fast moving flow is called supercritical.

In this case, the flow velocity is faster than the wave speed.

You can see that waves aren't able to propagate upstream.

Supercritical flow is controlled on the upstream side, so nothing I do downstream affects the

depth of the supercritical flow above.

A flow profile can naturally transition from subcritical to supercritical (that is from

slow to fast), for example if a channel changes to a steeper slope or a cliff.

Many types of flow measurement devices rely on forcing a flow to transition from sub-

to supercritical because there will be a unique relationship between flow rate and depth for

a given geometry.

Maybe we'll talk more about flow measurement in a future video.

But, when flow transitions the other direction - when a fast-moving supercritical flow transitions

to a more tranquil subcritical condition - something much more interesting happens: a hydraulic

jump.

The classic demonstration of a hydraulic jump can be seen at the bottom of your sink.

Open the faucet and watch how the flow behaves.

You can see the fast moving water right as the flow hits the sink and the abrupt transition

of the hydraulic jump to a slower moving flow.

But the sink demo isn't the best example because it happens due to surface tension,

not gravity.

Plus it's kind of a boring.

So I built this flume in my garage to give you a better look at the hydraulics.

If I open the upstream gate by just a little bit, I can create supercritical flow in the

flume.

Now, if I obstruct the area downstream, I can force the flow to transition into subcritical.

Right where the flow transitions, you can clearly see the hydraulic jump.

This phenomenon happens naturally in certain locations.

Steep mountain streams often have supercritical flow crashing into rocks and changing slopes,

creating whitewater and turbulence and the occasional hydraulic jump.

Also, a tidal bore occurs when an incoming tide forms a wave that travels upstream against

a river.

These events only occur in a few places across the world, but it's fascinating if you get

to see it in person.

In many cases, the bore travels as a moving hydraulic jump, similar to what you see here

in my flume.

But, jumps aren't just natural phenomena.

They're important in hydraulic structures as well, especially for energy dissipation.

A major part of the job of a civil engineer working in the field of hydraulics is designing

against erosion from the flow of water.

When we try to control flow of water, it often leads to the potential of having fast moving,

erosive conditions.

For example, when we put water in a culvert rather than allowing to flow over a roadway,

it can pick up speed in the pipe.

When we line a ditch or creek with concrete, the smoothness speeds up the flow compared

to natural conditions.

And when we make releases from a reservoir behind a dam into a spillway, the water can

come roaring down at extremely high velocities.

This supercritical flow can cause erosion and eventually lead to failure of the structure.

So, most hydraulic structures will be equipped with some form of energy dissipator on the

downstream end to reduce the velocity of flow and protect against erosion.

There are all kinds of hydraulic energy dissipators, but for large structures like spillways, the

most common types rely on the formation of a hydraulic jump.

Because a hydraulic jump causes so much turbulence, it is able to effectively dissipate hydraulic

energy as heat.

So many energy dissipators, also called stilling basins, are designed to force a hydraulic

jump to occur.

There are many types of stilling basins, but most use different combinations of blocks,

end sills, and overall geometry to control how the hydraulic jump forms.

The turbulence stays within the stilling basin with the objective of having smooth, tranquil,

subcritical flow leaving downstream, minimizing the potential for erosion which would otherwise

threaten the integrity of the structure.

Hydraulic jumps don't just serve utilitarian purposes.

Recreational whitewater courses can be found across the world, and many of these courses

make use of hydraulic jumps as artificial rapids.

In fact, many kayak parks started out as obsolete dams in need of removal, a perfect opportunity

for replacement with something more beneficial to the community and the environment.

Freestyle kayaking, also known as playboating, involves performing tricks in a single spot.

Playboaters use natural and artificial hydraulic jumps to stay in one spot.

I've never tried this myself but it looks like a lot of fun.

Next time you see water flowing in a open channel, try to identify if it's sub- or

supercritical, and keep your eye out for hydraulic jumps.

Thanks to Nord VPN for sponsoring this video.

I'm really happy to share this sponsor, because, in a small way at least, I owe my

marriage to VPNs.

If you're not familiar, a Virtual Private Network, or VPN,

is a way to tunnel your web traffic so it can't be seen or recorded from the outside.

Well before my wife and I were married, she spent 2 years living and working in Beijing,

China.

China's heavy-handed regulation of the internet, sometimes known as the Great Firewall, made

it difficult for us to stay in touch during this time.

We used a VPN to get around the censorship of certain websites and services we used to

communicate.

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Watch how simple and quick it is for me to completely protect my internet traffic.

It's so easy there's almost never a time I'm not connected through a VPN these days.

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If your privacy and security online is important to you, visit NordVPN.com/practicalengineering

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Thank you for watching, and let me know what you think!

For more infomation >> What is a Hydraulic Jump? - Duration: 8:43.

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Christian 'CP' Patterson of Made in Staten Island's Court Case: Is He Going to Jail? | Heavy.com - Duration: 6:00.

Christian 'CP' Patterson of Made in Staten Island's Court Case: Is He Going to Jail? | Heavy.com

MTV's Made in Staten Island tells the story of a group of street-wise teens and twenty-somethings as they struggle to avoid the temptations of the criminal lifestyle they were born into.

For Christian "CP" Patterson, staying away from a life of crime may be easier said than done.

But is he going to jail for his recent legal drama? No, but he is on three years' probation.

In his introduction on the show, CP shared a little bit about his background including his recent legal troubles and what actually went down that night.

"I got into a little trouble with the law.

I was at a party and a fight broke out.

Somebody winded up getting stabbed.

I didn't stab nobody, but I was involved in the fight, so they indicted me on attempted murder, assault one, assault two, assault three, assault with a deadly weapon.

And I made a mistake.

I definitely regret a lot.

I was just at the wrong place at the wrong time, honestly," he said.

       .

A police account of the incident suggested that Christian (18 at the time) and his 17-year-old friend named Daniel Milton arrived at a house party near Blue Heron Park unannounced on April 17, 2017.

They were reportedly looking for another 18-year-old male, who arrived to the scene later.

SI Live wrote:.

  When the boy finally showed up, Milton and a co-defendant, Christian Patterson, 18, took the victim outside.

A fight ensued in which Milton stabbed the teen nine times, said Ozdinc.

One thrust penetrated three to four inches, he said.

The victim's injuries were so severe he was rushed in critical condition to Staten Island University Hospital, Ocean Breeze, where he underwent surgery for the amount of blood he lost, officials said.

He was stabbed in the torso, chest, and back, said authorities.

  The teen survived.

"This was not a random attack," said state Supreme Court Justice Stephen J.

Rooney in sentencing Milton under a plea agreement.

"It seems to me there was a certain amount of premeditation involved.".

While CP claims he was "involved in the fight," authorities said he "punched and kicked the victim on the ground while Milton then stabbed him.

Patterson was sentenced as a youthful offender to three years' probation, a sentencing that could very well get airtime on Made in Staten Island.

His attorney reportedly argued that having a criminal record would limit Christian's job prospects and "hinder his ability going forward to be productive in society." Milton, however, is subject to five years' post-release supervision after serving his prison sentence for attempted murder, assault, and criminal weapon possession.

MTV's official description of CP reads: "CP was once homeless living on the streets and relying on the generosity of friends and family.

He has learned to build a wall around his heart when it comes to romance, and he values his family and friend circle over everything.

Unfortunately, if he doesn't learn to control his temper, he may land himself in the worst possible place: jail.".

READ NEXT: 'Made in Staten Island': Christian 'CP' Patterson & His Father's Arrest Records.

For more infomation >> Christian 'CP' Patterson of Made in Staten Island's Court Case: Is He Going to Jail? | Heavy.com - Duration: 6:00.

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Woman Is Sending More Than Just Money to Overseas Boyfriend! - Duration: 5:15.

For more infomation >> Woman Is Sending More Than Just Money to Overseas Boyfriend! - Duration: 5:15.

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Is THIS why Man Utd, Arsenal, Liverpool HAVEN'T signed players? Transfer theory REVEALED - Duration: 3:52.

 Sports enterprise expert Professor Simon Chadwick, who works for the University of Salford Business School, believes the big clubs haven't spent because of Brexit

 While clubs abroad have continued to splash the cash, the Premier League sides have been quiet

 Arsenal have pledged only to sign loan players while Liverpool, Manchester United and Tottenham haven't signed anyone

 Chelsea sealed a £57million deal for Christian Pulisic in the only big permanent signing this window - although he's been sent back to Borussia Dortmund on loan

 They also agreed to bring in Gonzalo Higuain from Juventus but that's only on loan

 Professor Chadwick said: "Uncertainty about the outcome of Brexit has moderated this month's domestic transfer window which, unlike in previous years, has largely been quiet

 "While transfer activity overseas has seemingly continued unabated, British clubs appear to have engaged either in short-term loan deals involving overseas players (for example, Gonzalo Higuain at Chelsea) or longer-term signings involving domestic players (such as Dominic Solanke's move from Liverpool to Bournemouth)

 "The recent publication of Deloitte's annual money league shows that English Premier League clubs remain cash rich, yet they still seem to be being somewhat cautious in their transfer market activities

Trending  "It remains unclear what visa arrangements might be put in place in the event of Brexit, we still don't know whether there will be squad limits on overseas players, and the general economic outlook appears worrying should, for instance, a hard Brexit take place

" But while fans are largely frustrated that their sides aren't spending, Professor Chadwick saw early signs it wasn't going to be a month of drama last summer

 "We perhaps saw evidence of what was to come last summer, when the British transfer market was noticeably less buoyant than it has been over the last decade," he said

 "To exacerbate matters even further, one senses that the Premier League is sailing in troubled waters

 "The failure to find a replacement for outgoing CEO Richard Scudamore could be a warning sign that life is about to get tougher for its clubs

 "One reason for this is that the broadcasting environment is increasingly uncertain and the structure of revenues derived from it is likely to change

 "Hence, unlike in the past when clubs would very often base current signings on future broadcasting revenue streams, currently it is unclear what will happen next

 "As a brand, the Premier League (and, indeed, English football in general) remains strong; however, the environment in which it operates is increasingly turbulent and uncertain

This current transfer window has reflected this."