“And if all others accepted the lie which the Party imposed—if all records told the same tale—then the lie passed into history and became truth.”
From “1984”, by George Orwell, 1949
“If you tell a lie big enough and keep repeating it, people will eventually come to believe it. The lie can be maintained only for such time as the State can shield the people from the political, economic and/or military consequences of the lie. It thus becomes vitally important for the State to use all of its powers to repress dissent, for the truth is the mortal enemy of the lie, and thus by extension, the truth is the greatest enemy of the State.”
- Joseph Goebbels
From 1979 to 2025, the greatest Secchi measurement at Caspian Lake in Vermont increased by an annual average of .75%.
From 1979 to 2025, the greatest Secchi measurement at Caspian Lake in Vermont increased by 35.5%, or by more than one third, from 9 meters to 12.2 meters.
From 1979 to 2023, the maximum water clarity in Caspian Lake in Vermont increased by a long-term annual average of 1.5%.
From 1979, the year that recordkeeping began, to 2023, the greatest Secchi measurement at Caspian Lake in Vermont increased by 66.6%, or by two thirds, from 9 meters to 15 meters, the greatest in history.
That is an exponential increase in water clarity.
Water clarity in Caspian Lake in Vermont is increasing exponentially because the health of the ether is inexorably improving, and water clarity varies directly with the health of the ether.
(Caspian Lake, Vermont)
From 1979 to 2020, the greatest Secchi measurement at Caspian Lake in Vermont increased by an annual average of .53%.
From 1979 to 2020, the greatest Secchi measurement at Caspian Lake in Vermont increased by 16.6%, from 9 meters to 10.5 meters.
From 1979 to 1991, the maximum water clarity in Caspian Lake in Vermont increased by an annual average of .09%.
From 1979 to 1991, the maximum water clarity in Caspian Lake in Vermont increased by 1.1%, from 9 meters to 9.1 meters.
From 1979 to 1986, the maximum water clarity in Caspian Lake in Vermont increased by 11.1%, from 9 meters to 10 meters.
From 1979 to 1980, the maximum water clarity in Caspian Lake in Vermont increased by 44.4%, or by almost half, from 9 meters to 13 meters, the greatest in history.
In 1979, the year that recordkeeping began, the greatest Secchi measurement at Caspian Lake in Vermont was 9 meters.
From 1980 to 2005, the greatest Secchi measurement of water clarity at Caspian Lake in Vermont increased by an annual average of .46%.
From 1980 to 2005, the greatest Secchi measurement at Caspian Lake in Vermont increased by 11.5%, from 13 meters, the greatest in history, to 14.5 meters, the greatest in history.
From 1980 to 1981, the maximum water clarity in Caspian Lake in Vermont decreased by 30.7%, from 13 meters, the greatest in history, to 9 meters, the lowest in history.
In 1980, the greatest Secchi measurement at Caspian Lake in Vermont was 13 meters, the greatest in history.
From 1981 to 1982, the maximum water clarity in Caspian Lake in Vermont increased by 11.1%, from 9 meters, the lowest in history, to 10 meters.
In 1981, the greatest Secchi measurement at Caspian Lake in Vermont was 9 meters.
From 1982 to 1984, the maximum water clarity in Caspian Lake in Vermont increased by 1%, from 10 meters to 10.1 meters.
From 1982 to 1984, the maximum water clarity in Caspian Lake in Vermont increased by an annual average of .5%.
From 1982 to 1983, the maximum water clarity in Caspian Lake in Vermont remained unchanged at 10 meters.
From 1982 to 1983, the maximum water clarity in Caspian Lake in Vermont increased by .5% (average).
In 1982, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
From 1983 to 1984, the maximum water clarity in Caspian Lake in Vermont increased by .5% (average)
From 1983 to 1984, the maximum water clarity in Caspian Lake in Vermont increased by 1%, from 10 meters to 10.1 meters.
In 1983, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
From 1984 to 1985, the maximum water clarity in Caspian Lake in Vermont decreased by 5.9%, from 10.1 meters to 9.5 meters.
In 1984, the greatest Secchi measurement at Caspian Lake in Vermont was 10.1 meters.
From 1985 to 1986, the maximum water clarity in Caspian Lake in Vermont increased by 5.3%, from 9.5 meters to 10 meters.
From 1985 to 1991, the maximum water clarity in Caspian Lake in Vermont decreased by an annual average of 1.8%.
In 1985, the greatest Secchi measurement at Caspian Lake in Vermont was 9.5 meters.
From 1986 to 1991, there is no data on water clarity at Caspian Lake in Vermont.
That’s interesting.
It is an example of the propaganda technique known as a “News Blackout”.
It probably took me about ten minutes to figure out why.
From 1986 to 1991, the maximum water clarity in Caspian Lake in Vermont decreased by an annual average of 1.8%.
From 1986 to 1991, the 1.8% average annual decrease in the maximum water clarity in Caspian Lake in Vermont was 219.9% less, or more than three times less than its 1.5% long-term average annual increase from 1979 to 2023.
This sudden, exponential decrease in water clarity is why the state of Vermont has blacked out the water clarity data at Caspian Lake from 1986 to 1981.
They don’t want anybody figuring out that it was driven by the low-wavelength microwave radiation from what we collectively refer to as technology.
From 1986 to 1991, the maximum water clarity in Caspian Lake in Vermont decreased by 9%, from 10 meters to 9.1 meters.
In 1986, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
From 1987 to 1988, the maximum water clarity in Caspian Lake in Vermont decreased by 1.8% (average).
From 1988 to 1989, the maximum water clarity in Caspian Lake in Vermont decreased by 1.8% (average).
From 1989 to 1990, the maximum water clarity in Caspian Lake in Vermont decreased by 1.8% (average).
From 1991 to 2000, the maximum water clarity in Caspian Lake in Vermont increased by an annual average of 3.7%.
From 1991 to 2000, the 3.7% average annual increase in water clarity in Caspian Lake in Vermont was 236.3% greater, or well more than three times greater than its 1.1% average annual increase from 1979 to 1991.
Water clarity in Caspian Lake in Vermont is increasing exponentially because the health of the ether is inexorably improving, and water clarity varies directly with the health of the ether.
From 1991 to 2000, the maximum water clarity in Caspian Lake in Vermont increased by 34%, or by more than one third, from 9.1 meters to 12.2 meters.
From 1991 to 1992, the maximum water clarity in Caspian Lake in Vermont increased by 31.8%, or by almost one third, from 9.1 meters to 12 meters.
In 1991, the greatest Secchi measurement at Caspian Lake in Vermont was 9.1 meters.
From 1992 to 1993, the maximum water clarity in Caspian Lake in Vermont increased by 2.5%, from 12 meters to 12.3 meters.
From 1992 to 1993, the 2.5% increase in the maximum water clarity in Caspian Lake in Vermont was 92.1% less, or almost infinitely less than its 31.8% increase from 1991 to 1992.
This exponential decrease in the water clarity in Caspian Lake in Vermont was driven by the low-wavelength microwave radiation from what we collectively refer to as technology.
In 1992, the greatest Secchi measurement at Caspian Lake in Vermont was 12 meters.
In 1993, the greatest Secchi measurement at Caspian Lake in Vermont was 12.3 meters.
From 1994 to 1995, the greatest Secchi measurement at Caspian Lake in Vermont decreased by .9%, from 10.7 meters to 10.6 meters.
From 1994 to 1995, the .9% decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 136% less, or more than two times less than its 2.5% increase from 1992 to 1993.
From 1994 to 1995, the 136% negative variance in the increase in the greatest Secchi measurement at Caspian Lake in Vermont versus 1992 to 1993 was 47.7% greater, or almost half again greater than its 92.1% negative variance from 1992 to 1993 versus 1991 to 1992.
This exponential decrease in the water clarity in Caspian Lake in Vermont was driven by the low-wavelength microwave radiation from what we collectively refer to as technology.
In 1994, the greatest Secchi measurement at Caspian Lake in Vermont was 10.7 meters.
From 1995 to 1996, the greatest Secchi measurement at Caspian Lake in Vermont decreased by 6.6%, from 10.6 meters to 9.9 meters.
From 1995 to 1996, the 6.6% decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 633.3% less, or more than seven times less than its .9% decrease from 1994 to 1995.
From 1995 to 1996, the 633.3% negative variance in the increase in the greatest Secchi measurement at Caspian Lake in Vermont versus 1994 to 1995 was 365.6% greater, or more than four and a half times greater than its 136% negative variance from 1994 to 1995 versus 1993 to 1994.
This exponential decrease in the water clarity in Caspian Lake in Vermont was driven by the low-wavelength microwave radiation from what we collectively refer to as technology.
In 1995, the greatest Secchi measurement at Caspian Lake in Vermont was 10.6 meters.
From 1996 to 1997, the greatest Secchi measurement at Caspian Lake in Vermont increased by 8%, from 9.9 meters to 10.7 meters.
From 1996 to 1997 the 8% increase in the greatest Secchi measurement at Caspian Lake in Vermont was 221.2% greater, or more than three times greater than its 6.6% decrease from 1995 to 1996.
Here, in 1996, the underlying health of the ether is improving at a rate exponentially greater than that by which the low-wavelength microwave radiation from what we collectively refer to as technology is able to degrade it.
In 1996, the greatest Secchi measurement at Caspian Lake in Vermont was 9.9 meters.
From 1997 to 1998, the greatest Secchi measurement at Caspian Lake in Vermont decreased by 14%, from 10.7 meters to 9.2 meters.
From 1997 to 1998, the 14% decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 275% less, or almost four times less than its 8% increase from 1996 to 1997.
In 1997, the greatest Secchi measurement at Caspian Lake in Vermont was 10.7 meters.
From 1998 to 2000, the greatest Secchi measurement at Caspian Lake in Vermont increased by an annual average of 16.3%.
From 1998 to 1999, the greatest Secchi measurement at Caspian Lake in Vermont increased by 16.3% (average).
From 1998 to 1999, the 16.3% (average) increase in the greatest Secchi measurement at Caspian Lake in Vermont was 216.4% greater, or more than three times greater than its 14% decrease from 1997 to 1998.
Here, in 1998, the underlying health of the ether is improving at a rate exponentially greater than that by which the low-wavelength microwave radiation from what we collectively refer to as technology is able to degrade it.
From 1999 to 2000, the greatest Secchi measurement at Caspian Lake in Vermont increased by 16.3% (average).
From 1999 to 2000, the 16.3% (average) increase in the greatest Secchi measurement at Caspian Lake in Vermont was 216.4% greater, or more than three times greater than its 14% decrease from 1997 to 1998.
Here, in 1999, the underlying health of the ether is improving at a rate exponentially greater than that by which the low-wavelength microwave radiation from what we collectively refer to as technology is able to degrade it.
From 1998 to 2000, the greatest Secchi measurement at Caspian Lake in Vermont increased by 32.6%, or by almost one third, form 9.2 meters to 12.2 meters.
From 1998 to 1999, the greatest Secchi measurement at Caspian Lake in Vermont remained unchanged at 9.2 meters.
In 1998, the greatest Secchi measurement at Caspian Lake in Vermont was 9.2 meters.
In 1999, the greatest Secchi measurement at Caspian Lake in Vermont was 9.2 meters.
From 2000 to 2010, the greatest Secchi measurement at Caspian Lake in Vermont increased by an annual average of .25%.
From 2000 to 2010, the .25% average annual increase in the greatest Secchi measurement at Caspian Lake in Vermont was 93.2% less, or almost infinitely less than its 3.7% average annual increase from 1991 to 2000.
From 2000 to 2010, the greatest Secchi measurement at Caspian Lake in Vermont increased by 2.5%, from 12.2 meters to 12.5 meters.
From 2000 to 2001, the greatest Secchi measurement at Caspian Lake in Vermont decreased by 18%, from 12.2 meters to 10 meters.
From 2000 to 2005, the greatest Secchi measurement at Caspian Lake in Vermont increased by an annual average of 4.6%.
From 2000 to 2005, the 4.6% average annual increase in the greatest Secchi measurement at Caspian Lake in Vermont was 24.3% greater, or almost one fourth greater than its 3.7% average annual increase from 1991 to 2000.
Here, in 1999, the underlying health of the ether is improving at a rate exponentially greater than that by which the low-wavelength microwave radiation from what we collectively refer to as technology is able to degrade it.
From 2000 to 2005, the greatest Secchi measurement at Caspian Lake in Vermont increased by 22.9%, or by more than one fifth, from 12.2 meters to 15 meters, the greatest in history.
In 2000, the greatest Secchi measurement at Caspian Lake in Vermont was 12.2 meters.
From 2001 to 2002, the greatest Secchi measurement at Caspian Lake in Vermont decreased by 15%, from 10 meters to 8.5 meters.
From 2002 to 2002, the 15% decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 16.6% less than its 18% decrease from 2001 to 2002.
In 2001, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
From 2002 to 2003, the greatest Secchi measurement at Caspian Lake in Vermont increased by 35.3%, or by more than one third, from 8.5 meters to 11.5 meters.
In 2002, the greatest Secchi measurement at Caspian Lake in Vermont was 8.5 meters.
In 2003, the greatest Secchi measurement at Caspian Lake in Vermont was 11.5 meters.
In 2004, the greatest Secchi measurement at Caspian Lake in Vermont was 9 meters.
From 2005 to 2023, the greatest Secchi measurement at Caspian Lake in Vermont increased by 3.4%, from 14.5 meters, the greatest in history, to 15 meters, the greatest in history.
From 2005 to 2010, the greatest Secchi measurement at Caspian Lake in Vermont decreased by an annual average of 2.8%.
From 2005 to 2010, the 2.8% average annual decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 39.1% less than its 4.6% average annual increase fro 2000 to 2005.
Here, from 2000 to 2005, the low-wavelength microwave radiation from what we collectively refer to as technology is degrading the ether at a rate more than one third greater than that at which it is inexorably improving as a baseline on the way up to and through the end of the Mayan “long count” in 2012.
From 2005 to 2010, the greatest Secchi measurement at Caspian Lake in Vermont decreased by 13.8%, from 14.5 meters, the greatest in history, to 12.5 meters.
From 2005 to 2006, the water clarity in Caspian Lake in Vermont decreased by 48.3%, or by almost half, from 14.5 meters, the greatest in history, to 7.5 meters, the lowest in history.
In 2005, the greatest Secchi measurement at Caspian Lake in Vermont was 14.5 meters, the greatest in history.
From 2006 to 2007, water clarity in Caspian Lake, Vermont increased by 12.3%, from 6.5 meters to 7.3 meters
In 2006, the greatest Secchi measurement at Caspian Lake in Vermont was 7.5 meters, the lowest in history.
In 2007, the greatest Secchi measurement at Caspian Lake in Vermont was 11.5 meters.
In 2008, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
In 2009, the greatest Secchi measurement at Caspian Lake in Vermont was 10.5 meters.
From 2010 to 2015, the greatest Secchi measurement at Caspian Lake in Vermont decreased by an annual average of 2.9%.
From 2010 to 2015, the 2.9% average annual decrease in the greatest Secchi measurement at Caspian Lake in Vermont 3.6% greater than its 2.8% average annual decrease from 2005 to 2010.
Here, from 2010 to 2015, water clarity in Caspian Lake in Vermont is increasing exponentially because the health of the ether is improving exponentially, and water clarity varies directly with the health of the ether.
From 2010 to 2015, the greatest Secchi measurement at Caspian Lake in Vermont decreased by 14.3%, from 10.5 meters to 9 meters.
In 2010, the greatest Secchi measurement at Caspian Lake in Vermont was 12.5 meters.
In 2011, the greatest Secchi measurement at Caspian Lake in Vermont was 10.5 meters.
In 2012, the greatest Secchi measurement at Caspian Lake in Vermont was 8.2 meters.
In 2013, the greatest Secchi measurement at Caspian Lake in Vermont was 11 meters.
In 2013, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
In 2014, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
From 2015 to 2020, the greatest Secchi measurement at Caspian Lake in Vermont increased by 3.3%.
From 2015 to 2020, the 3.3% average annual increase in the greatest Secchi measurement at Caspian Lake in Vermont was 13.8% greater than its 2.9% average annual increase from 2005 to 2010.
From 2015 to 2020, the 13.8% positive variance in the increase of the the greatest Secchi measurement at Caspian Lake in Vermont versus 2005 to 2010 was 283.3% greater, or almost four times greater than its 3.6% positive variance from 2010 to 2015 versus 2005 to 2010.
Water clarity in Caspian Lake in Vermont is increasing exponentially because the health of the ether is improving exponentially, and water clarity varies directly with the health of the ether.
From 2015 to 2020, the greatest Secchi measurement at Caspian Lake in Vermont increased by 16.6%, from 9 meters to 10.5 meters.
In 2015, the greatest Secchi measurement at Caspian Lake in Vermont was 9 meters.
In 2016, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
In 2017, the greatest Secchi measurement at Caspian Lake in Vermont was 12 meters.
In 2018, the greatest Secchi measurement at Caspian Lake in Vermont was 10.5 meters.
In 2019, the greatest Secchi measurement at Caspian Lake in Vermont was 10 meters.
In 2020, the greatest Secchi measurement at Caspian Lake in Vermont was 10.5 meters.
From 2020 to 2025, the greatest Secchi measurement at Caspian Lake in Vermont increased by an annual average of 3.22%.
From 2020 to 2025, the 3.22% average annual decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 329.3% greater, or more than four times greater than its .75% long-term average annual increase from 1979 to 2025.
From 2020 to 2025, the 3.22% average annual decrease in the greatest Secchi measurement at Caspian Lake in Vermont was 507.5% greater, or more than six times greater than its .53% average annual increase from 1979 to 2020.
Water clarity in Caspian Lake in Vermont is increasing exponentially because the health of the ether is improving exponentially, and water clarity varies directly with the health of the ether.
From 2020 to 2025, the greatest Secchi measurement at Caspian Lake in Vermont increased by 16.1%, from 10.5 meters to 12.2 meters.
From 2020 to this writing in 2026, there is no water clarity data for Caspian Lake on dec.vermont.gov.
That is an example of the propaganda technique known as a “news blackout”.
I found more data at anrweb.vt.gov.
In 2021, the greatest Secchi measurement at Caspian Lake in Vermont was 10.2 meters.
On November 30, 2021, an uncredited author on dec.vermont.gov said “Decades of data have documented declining water quality in Caspian Lake”.
When, in fact, from 1979, the year that recordkeeping began, to 2023, the greatest maximum Secchi disk water clarity measurement at Caspian Lake in Vermont increased by 66.6%, or by two thirds, from 9 meters to 15 meters, the greatest in history.
As you can see, the general “Decades of data have documented declining water quality in Caspian Lake” is an example of the propaganda technique known as “the big lie”.
I have exposed the duplicity of the government of the state of Vermont by using what was known in the old days as “fact checking”.
In 2022, the greatest Secchi measurement at Caspian Lake in Vermont was 10.4 meters.
In 2023, the greatest Secchi measurement at Caspian Lake in Vermont was 15 meters, the greatest in history.
In 2023, the greatest Secchi measurement at Caspian Lake in Vermont of 15 meters, the greatest in history, was 3.4% greater than the previous record of 14.5 meters set in 2005.
In 2024, the greatest Secchi measurement at Caspian Lake in Vermont was 8.5 meters.
Test dates ran from 6/16/2024 through 8/23/2024.
In 2025, the greatest Secchi measurement at Caspian Lake in Vermont was 12.2 meters.
Jeff Miller, Honolulu, HI, June 3, 2026
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