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Logan Paul says his beef with KSI is 100% real — telling TMZ Sports he “hates” the YouTube star, and says he’s calling his shot in their upcoming boxing match. Logan and KSI came face-to-face during a heated news conference this past weekend…
Logan Paul Predicts 3rd Round KO, ‘I Hate’ KSI syndicated from sinacarremovals.blogspot.com/
How Doctors Can Predict Who Dies From COVID
There are a number of studies that have come out about COVID 19 prognosis. We now have a powerful way to predict which patients with COVID 19 pneumonia are more likely to die, and more likely to require longer stays in the hospital.
We already know that less than 15% of people who get COVID 19 have severe disease to the point of requiring hospitalization. Less than 5% of people who get coronavirus require ICU. For those with COVID 19 pneumonia who require ICU, and for some of the other patients in the hospital who might not necessarily need ICU, these are the patients who have the cytokine storm that we keep hearing about, meaning the immune system is going haywire, and there is a ton of inflammation taking place in the body….especially the lungs. But now, we have a more specific way of predicting who is more likely to develop cytokine storm, and therefore more likely to die, and who is more likely to require a longer stay in the hospital….and it's based on the bloodwork we get when patients are hospitalized.
NiMet predicts thundery, rainy activities for Monday By Gabriel Agbeja Weather Abuja, Sept. 1, 2019 The Nigerian Meteorological Agency (NiMet) has predicted increased cloudiness with prospect of localised thunderstorms and rains for Monday. NiMet’s weather outlook on Sunday in Abuja forecast thunderstorms and rains over the Northern and Central cities with cloudy conditions to isolated […]
nnn.com.ng/2019/09/01/nimet-predicts-thundery-rainy-activ...
Tide Prediction Machines (TPMs) were analogue computers (LEGO Machine) which provided an accurate and efficient means of predicting the ocean tide. The TPM was invented in the late 19th century, but most of them were made in the first half of the 20th century, up until the time that the advent of digital computers consigned them to museums.
“Time and tide will wait for no man, saith the adage. But all men have to wait for time and tide.”
Charles Dickens
One could undertake such a tedious arithmetic computation oneself, by calculating the height of the tide every hour during the year and by plotting the resulting time series. However, it was Lord Kelvin's realisation that TPMs could provide a means for undertaking such a task more efficiently, their accuracy being limited only by the number of constituents included in their design.
If one knows the amplitudes and phases of each constituent at a point on the cost (“the harmonic constants), then it is possible to compute the tide at that position for any time, either by considerable arithmetic or with the use of a TPM.
Each TPM had its own architecture. However, there were several features common to almost all of them. First a TPM had to have a driving mechanism to provide a circular motion with an angular frequency corresponding to that of a tidal constituent. Second, a TPM required a mechanism for converting that circular motion into sinusoidal motion and third it had to sum the individual sinusoidal motions to derive an overall sum.
The video (youtu.be/sAyVcM3g4q4?si=7OJdIBY-CsYugGXb) indicates the circular motion of a crank, with a pin fixed in the crank, which is free to move along the axles. The pulley wheel itself is allowed to move up and down in a vertical direction only. Therefore, its elevation will vary by the distance of the pin from the centre or the amplitude of the constituent.
The pully wheels have the following properties (from left to right):
• K1 (lunar) - amplitude: 0.61 studs; frequency: 24h: phase lag: 54 degree
• O1 (lunar) - amplitude: 0.39 studs; frequency: 24h; phase lag: 144 degree
• M2 (lunar) - amplitude: 1.25 studs; frequency: 12;. phase lag: 126 degree
• S2 (solar) - amplitude: 0.75 studs; frequency: 12h; phase lag: 0 degree
Then, as the crank rotates, the pulley wheel will rise and fall, thereby simulating the variation in water level due to that constituent. Four of such units can be geared to the main shaft so that the individual speeds are proportional to those of the four constituents. All motions are summed by using a continuous band. The band is fixed at one end and wraps around the four pulley wheels. At its other end it has a pointer which plots the height of the tide on the rotating cylinder.
Terrence O'Hanlon delivered the Keynote for FLIR's Inframation Infrared Conference in Nashville TN May 2015
But there is a slight rain now. I'm on the Tree of Life theatre
staying dry. Getting here is sure a long hike though.
Tide Prediction Machines (TPMs) were analogue computers (LEGO Machine) which provided an accurate and efficient means of predicting the ocean tide. The TPM was invented in the late 19th century, but most of them were made in the first half of the 20th century, up until the time that the advent of digital computers consigned them to museums.
“Time and tide will wait for no man, saith the adage. But all men have to wait for time and tide.”
Charles Dickens
One could undertake such a tedious arithmetic computation oneself, by calculating the height of the tide every hour during the year and by plotting the resulting time series. However, it was Lord Kelvin's realisation that TPMs could provide a means for undertaking such a task more efficiently, their accuracy being limited only by the number of constituents included in their design.
If one knows the amplitudes and phases of each constituent at a point on the cost (“the harmonic constants), then it is possible to compute the tide at that position for any time, either by considerable arithmetic or with the use of a TPM.
Each TPM had its own architecture. However, there were several features common to almost all of them. First a TPM had to have a driving mechanism to provide a circular motion with an angular frequency corresponding to that of a tidal constituent. Second, a TPM required a mechanism for converting that circular motion into sinusoidal motion and third it had to sum the individual sinusoidal motions to derive an overall sum.
The video (youtu.be/sAyVcM3g4q4?si=7OJdIBY-CsYugGXb) indicates the circular motion of a crank, with a pin fixed in the crank, which is free to move along the axles. The pulley wheel itself is allowed to move up and down in a vertical direction only. Therefore, its elevation will vary by the distance of the pin from the centre or the amplitude of the constituent.
The pully wheels have the following properties (from left to right):
• K1 (lunar) - amplitude: 0.61 studs; frequency: 24h: phase lag: 54 degree
• O1 (lunar) - amplitude: 0.39 studs; frequency: 24h; phase lag: 144 degree
• M2 (lunar) - amplitude: 1.25 studs; frequency: 12;. phase lag: 126 degree
• S2 (solar) - amplitude: 0.75 studs; frequency: 12h; phase lag: 0 degree
Then, as the crank rotates, the pulley wheel will rise and fall, thereby simulating the variation in water level due to that constituent. Four of such units can be geared to the main shaft so that the individual speeds are proportional to those of the four constituents. All motions are summed by using a continuous band. The band is fixed at one end and wraps around the four pulley wheels. At its other end it has a pointer which plots the height of the tide on the rotating cylinder.
Tide Prediction Machines (TPMs) were analogue computers (LEGO Machine) which provided an accurate and efficient means of predicting the ocean tide. The TPM was invented in the late 19th century, but most of them were made in the first half of the 20th century, up until the time that the advent of digital computers consigned them to museums.
“Time and tide will wait for no man, saith the adage. But all men have to wait for time and tide.”
Charles Dickens
One could undertake such a tedious arithmetic computation oneself, by calculating the height of the tide every hour during the year and by plotting the resulting time series. However, it was Lord Kelvin's realisation that TPMs could provide a means for undertaking such a task more efficiently, their accuracy being limited only by the number of constituents included in their design.
If one knows the amplitudes and phases of each constituent at a point on the cost (“the harmonic constants), then it is possible to compute the tide at that position for any time, either by considerable arithmetic or with the use of a TPM.
Each TPM had its own architecture. However, there were several features common to almost all of them. First a TPM had to have a driving mechanism to provide a circular motion with an angular frequency corresponding to that of a tidal constituent. Second, a TPM required a mechanism for converting that circular motion into sinusoidal motion and third it had to sum the individual sinusoidal motions to derive an overall sum.
The video (youtu.be/sAyVcM3g4q4?si=7OJdIBY-CsYugGXb) indicates the circular motion of a crank, with a pin fixed in the crank, which is free to move along the axles. The pulley wheel itself is allowed to move up and down in a vertical direction only. Therefore, its elevation will vary by the distance of the pin from the centre or the amplitude of the constituent.
The pully wheels have the following properties (from left to right):
• K1 (lunar) - amplitude: 0.61 studs; frequency: 24h: phase lag: 54 degree
• O1 (lunar) - amplitude: 0.39 studs; frequency: 24h; phase lag: 144 degree
• M2 (lunar) - amplitude: 1.25 studs; frequency: 12;. phase lag: 126 degree
• S2 (solar) - amplitude: 0.75 studs; frequency: 12h; phase lag: 0 degree
Then, as the crank rotates, the pulley wheel will rise and fall, thereby simulating the variation in water level due to that constituent. Four of such units can be geared to the main shaft so that the individual speeds are proportional to those of the four constituents. All motions are summed by using a continuous band. The band is fixed at one end and wraps around the four pulley wheels. At its other end it has a pointer which plots the height of the tide on the rotating cylinder.
Of all weather phenomena, clouds are among the most fascinating. From the silky filaments to high altitude cirrus to the towering, threatening mass of storm-bearing cumulonimbus, clouds are as varied as the weather itself.
Apart from their beauty and interest, clouds can provide a useful... bit.ly/2wDhWco
#trailhikingaust #trailhiking #adventure #hiking #bushwalking #lovehiking #walking #hikinglife #letsgohiking #hikingadventures #outdoors #australia
Predicting Booms and Busts by Mark Thornton t.co/gNeTeWx3ho #BusinessCycle (via Twitter twitter.com/TWoodsSuggests/status/862070413563703302)
Mr. Lif joins forces with Brass Menazeri at the First Annual Seattle Folk Festival. Event MC Acep Hale.
Thinking outside the black box: The imperative for accountability and transparency in predictive analytics
Brett Goldstein (University of Chicago)
I had closed the viewfinder and was starting to put the Kiev in my backpack when I noticed this gentleman crossing the intersection of 9th & Judah. I didn't have time to open the viewfinder so I just aimed and prayed.
Kiev 88 loaded with Fuji Neopan 400, developed in HC-110 (dilution h) for 10 minutes with 30 seconds initial agitation followed by 10 agitations every minute after.
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