This is the reality, if we don’t change now it will only get worst. Many of us were thought how to farm, make do with what we had or create what we needed. Are we teaching our children the same or are we sending them into the world believing that he who has the most toys wins.
Our farm lands are disappearing, our dependency on fuel oil has made us reliant on other countries, our place in the global market is dwindling along with the respect we once had because we no longer create, we only destroy.
In just Four Years, we can change everything…
Please click on the title to view video or copy and paste this link to your browser.
It is well worth your time..........
http://www.youtube.com/watch?v=B_6iTCo5Ci8
Showing posts with label logic. Show all posts
Showing posts with label logic. Show all posts
Thursday, March 25, 2010
Monday, March 15, 2010
Free Energy Is Here as it always has been.
What would you do if you had found the answer to all our energy needs? Would take the money they offer to keep it quiet or be stoned to death by the academics’ and corporations of the world for heresy against our energy dogma.
In my search for sustainable systems I have come across the principals of free energy many times. It is out there, though many will deny it, defending their PhD’s because they can’t bear to have been wrong all these years. I have enclosed links below because seeing is believing. Look these inventors up on you tube and you will be surprised at how many people have built these motors at home from junk based on the knowledge the men below have offered up for free. The principal is simple so don’t get lost in the technical details and circuitry or the arguments for and against. Just be aware that it is available to everyone. Several of the inventors have been told to keep quiet and refused, so they were debunked at every opportunity (Google; John Bedini or Tom Bearden). But magnetic motors have been around since 1269 AD.
Now, Steorn Orbo Technology (see; http://www.healthsalon.org/482/orbo-steorn-free-energy-electromagnetic-energy-is-here/ ) has put their own version out there for anyone to test and prove them wrong. If they can not find fault, and I don’t believe they can, everything we have known before will change. Imagine, cars, electricity for home and office, motors of all shapes and sizes that require no fuel. This is where we should be investing our money. And this is where we should have been years ago.
Remember the names Peter Peregrius (1269AD), Lee Bowmen (1954), John Bedini, Tom Bearden, David Hamel and now Steorn Orbo Technology. They have all built knowledge off of their predecessors and each other, they have stood in the forefront, taking their shots to the point of being called frauds but they will survive and you will benefit from their stubbornness.
To see for yourself visit the links below and the many others that will pop up.
http://www.healthsalon.org/482/orbo-steorn-free-energy-electromagnetic-energy-is-here/
http://www.icehouse.net/john1/bearden.html
http://www.youtube.com/watch?v=9JikYfmEdF8&feature=related
In my search for sustainable systems I have come across the principals of free energy many times. It is out there, though many will deny it, defending their PhD’s because they can’t bear to have been wrong all these years. I have enclosed links below because seeing is believing. Look these inventors up on you tube and you will be surprised at how many people have built these motors at home from junk based on the knowledge the men below have offered up for free. The principal is simple so don’t get lost in the technical details and circuitry or the arguments for and against. Just be aware that it is available to everyone. Several of the inventors have been told to keep quiet and refused, so they were debunked at every opportunity (Google; John Bedini or Tom Bearden). But magnetic motors have been around since 1269 AD.
Now, Steorn Orbo Technology (see; http://www.healthsalon.org/482/orbo-steorn-free-energy-electromagnetic-energy-is-here/ ) has put their own version out there for anyone to test and prove them wrong. If they can not find fault, and I don’t believe they can, everything we have known before will change. Imagine, cars, electricity for home and office, motors of all shapes and sizes that require no fuel. This is where we should be investing our money. And this is where we should have been years ago.
Remember the names Peter Peregrius (1269AD), Lee Bowmen (1954), John Bedini, Tom Bearden, David Hamel and now Steorn Orbo Technology. They have all built knowledge off of their predecessors and each other, they have stood in the forefront, taking their shots to the point of being called frauds but they will survive and you will benefit from their stubbornness.
To see for yourself visit the links below and the many others that will pop up.
http://www.healthsalon.org/482/orbo-steorn-free-energy-electromagnetic-energy-is-here/
http://www.icehouse.net/john1/bearden.html
http://www.youtube.com/watch?v=9JikYfmEdF8&feature=related
Monday, March 1, 2010
House plants are back
Back in the 70's we would all have house plants, it was in style then. It may be time to bring it back. The following is from a NASA study that list the best oxygen producing house plants.
Please Note: The following three plants from on this list should be avoided if there are cats in the home:
Rubber Plant (Ficus robusta), Dracaena “Janet Craig”, Philodendron.
For photos of these plants and the original site, please click the title link.
Top ten plants for removing formaldehyde, benzene, and carbon monoxide from the air:
1. Areca Palm (Chrysalidocarpus lutescens)
Also called the “Butterfly Palm”. An upright houseplant that is somewhat vase shaped. Specimen plants can reach 10 to 12 foot in height. Prefers a humid area to avoid tip damage. Requires pruning. When selecting an Areca palm look for plants with larger caliber trunks at the base of the plant. Plants that have pencil thin stems tend to topple over and are quite difficult to maintain.
2. Lady Palm (Rhapis excelsa)
Also called the “Lady Palm”, this durable palm species adapts well to most interiors. The Rhapis are some of the easiest palms to grow, but each species has its own particular environment and culture requirements. The “Lady Palm” grows slowly, but can grow to more than 14′ in height with broad clumps often having a diameter as wide as their height.
3. Bamboo palm (Chamaedorea seifrizii)
Also called the “reed palm”, this palm prefers bright indirect light. New plants will lose of some interior foliage as they acclimate to indoor settings. This plant likes to stay uniformly moist, but does not like to be over-watered or to sit in standing water. Indoor palms may attract spider mites which can be controlled by spraying with a soapy solution.
4. Rubber Plant (Ficus robusta)
Grows very well indoors, preferring semi-sun lighting. Avoid direct sunlight, especially in summer. Young plants may need to be supported by a stake. The Ficus grows to 8’ with a spread of 5’. Wear gloves when pruning, as the milky sap may irritate the skin. Water thoroughly when in active growth, then allow the soil to become fairly dry before watering again. In winter keep slightly moist.
5. Dracaena “Janet Craig” (Dracaena deremensis)
The Dracaena grows to 10’ with a spread of 3’. Easy to grow, these plants do best in bright indirect sunlight coming from the east/west. They can adapt to lower light levels if the watering is reduced. Keep the soil evenly moist and mist frequently with warm water. Remove any dead leaves. Leaf tips will go brown if the plant is under watered but this browning may be trimmed.
6. Philodendron (Philodendron sp.)
One of the most durable of all house plants. Philodendrons prefer medium intensity light but will tolerate low light. Direct sun will burn the leaves and stunt plant growth. This plant is available in climbing and non-climbing varieties. When grown indoors, they need to be misted regularly and the leaves kept free of dust. Soil should be evenly moist, but allowed to dry between watering.
7. Dwarf Date Palm (Phoenix roebelenii)
A hardy, drought-tolerant and long-lived plant, the Dwarf Date Palm needs a bright spot which is free of drafts. It grows slowly, reaching heights of 8-10’. The Dwarf Date Palm should not be placed near children’s play areas because it has sharp needle-like spines arranged near the base of the leaf stem. These can easily penetrate skin and even protective clothing.
8. Ficus Alii (Ficus macleilandii “Alii”)
The Ficus Alii grows easily indoors, and resists insects. It prefers a humid environment and low to medium light when grown indoors. The Ficus Aliii should not be placed near heating or air conditioning vents, or near drafts because this could cause leaf loss. Soil should be kept moist but allowed to dry between watering.
9. Boston Fern (Nephrolepis exaltata “Bostoniensis”)
The Boston fern grows to 4’ in height with a spread up to 5’. It has feathery ferns which are best displayed as a hanging plant. It prefers bright indirect sunlight. Keep the soil barely moist and mist frequently with warm water. This plant is prone to spider mites and whitefly which can be controlled using a soapy water spray. Inspect new plants for bugs before bringing them home.
10. Peace Lily (Spathiphyllum “Mauna Loa”)
The Peace Lily is a compact plant which grows to a height of 3’ with a 2’ spread. This hardy plant tolerates neglect. It prefers indirect sunlight and high humidity, but needs to be placed out of drafts. For best results, the Peace Lily should be thoroughly watered, then allowed to go moderately dry between waterings. The leaves should be misted frequently with warm water.
Please Note: The following three plants from on this list should be avoided if there are cats in the home:
Rubber Plant (Ficus robusta), Dracaena “Janet Craig”, Philodendron.
For photos of these plants and the original site, please click the title link.
Top ten plants for removing formaldehyde, benzene, and carbon monoxide from the air:
1. Areca Palm (Chrysalidocarpus lutescens)
Also called the “Butterfly Palm”. An upright houseplant that is somewhat vase shaped. Specimen plants can reach 10 to 12 foot in height. Prefers a humid area to avoid tip damage. Requires pruning. When selecting an Areca palm look for plants with larger caliber trunks at the base of the plant. Plants that have pencil thin stems tend to topple over and are quite difficult to maintain.
2. Lady Palm (Rhapis excelsa)
Also called the “Lady Palm”, this durable palm species adapts well to most interiors. The Rhapis are some of the easiest palms to grow, but each species has its own particular environment and culture requirements. The “Lady Palm” grows slowly, but can grow to more than 14′ in height with broad clumps often having a diameter as wide as their height.
3. Bamboo palm (Chamaedorea seifrizii)
Also called the “reed palm”, this palm prefers bright indirect light. New plants will lose of some interior foliage as they acclimate to indoor settings. This plant likes to stay uniformly moist, but does not like to be over-watered or to sit in standing water. Indoor palms may attract spider mites which can be controlled by spraying with a soapy solution.
4. Rubber Plant (Ficus robusta)
Grows very well indoors, preferring semi-sun lighting. Avoid direct sunlight, especially in summer. Young plants may need to be supported by a stake. The Ficus grows to 8’ with a spread of 5’. Wear gloves when pruning, as the milky sap may irritate the skin. Water thoroughly when in active growth, then allow the soil to become fairly dry before watering again. In winter keep slightly moist.
5. Dracaena “Janet Craig” (Dracaena deremensis)
The Dracaena grows to 10’ with a spread of 3’. Easy to grow, these plants do best in bright indirect sunlight coming from the east/west. They can adapt to lower light levels if the watering is reduced. Keep the soil evenly moist and mist frequently with warm water. Remove any dead leaves. Leaf tips will go brown if the plant is under watered but this browning may be trimmed.
6. Philodendron (Philodendron sp.)
One of the most durable of all house plants. Philodendrons prefer medium intensity light but will tolerate low light. Direct sun will burn the leaves and stunt plant growth. This plant is available in climbing and non-climbing varieties. When grown indoors, they need to be misted regularly and the leaves kept free of dust. Soil should be evenly moist, but allowed to dry between watering.
7. Dwarf Date Palm (Phoenix roebelenii)
A hardy, drought-tolerant and long-lived plant, the Dwarf Date Palm needs a bright spot which is free of drafts. It grows slowly, reaching heights of 8-10’. The Dwarf Date Palm should not be placed near children’s play areas because it has sharp needle-like spines arranged near the base of the leaf stem. These can easily penetrate skin and even protective clothing.
8. Ficus Alii (Ficus macleilandii “Alii”)
The Ficus Alii grows easily indoors, and resists insects. It prefers a humid environment and low to medium light when grown indoors. The Ficus Aliii should not be placed near heating or air conditioning vents, or near drafts because this could cause leaf loss. Soil should be kept moist but allowed to dry between watering.
9. Boston Fern (Nephrolepis exaltata “Bostoniensis”)
The Boston fern grows to 4’ in height with a spread up to 5’. It has feathery ferns which are best displayed as a hanging plant. It prefers bright indirect sunlight. Keep the soil barely moist and mist frequently with warm water. This plant is prone to spider mites and whitefly which can be controlled using a soapy water spray. Inspect new plants for bugs before bringing them home.
10. Peace Lily (Spathiphyllum “Mauna Loa”)
The Peace Lily is a compact plant which grows to a height of 3’ with a 2’ spread. This hardy plant tolerates neglect. It prefers indirect sunlight and high humidity, but needs to be placed out of drafts. For best results, the Peace Lily should be thoroughly watered, then allowed to go moderately dry between waterings. The leaves should be misted frequently with warm water.
Thursday, December 3, 2009
This sucks!!!!!!!!!!! We have to do better!!!!!!
Today as I wandered through the internet researching the latest greatest advances in solar power I came across The American Solar Energy Society, their page to had a link to a solar calculator http://www.findsolar.com/index.php?page=rightforme.
Hey Great! I plugged in my average power usage for a 30 day period (from my electric bill) and let it do its thing. The calculator is based on professional installations using state of the art systems. The results are below.
This sucks!!!!!!!!!!! We have to do better!!!!!!
This is what drives me and this is why I am here to promote a grassroots effort to make it better and cheaper so that anyone can afford to reduce their carbon footprint and SAVE MONEY doing so. You can not rely on corporations when everybody is in this for major profit.
The results below show it will take 30 years to breakeven. Who but the wealthiest can or will do this? By the way, the newest of solar panels have a 30 year life expectancy and from what I have seen in the real world the power accessories (i.e. inverters, controllers and batteries) have far less. If you go this route you will never ever break even unless you back feed the grid and reduce you consumption. Even then they will only pay you the whole sale price (far less than what you are charged) for what you produce. I have seen advertised 'How-To' books (@$49.95) and videos on building your own solar panel for under $200, I have not purchased these guides simply because I know how to reuse old panels but I am very tempted to see if they are worth the money so that I can advise you on a better way.
For those of you interested in alternative methods, I recommend you visit another site I found. I have yet to read everything on it but it does look promising. Low Tech Magazine at http://www.lowtechmagazine.com/ for better solutions.
Calculator found at
http://www.findsolar.com/index.php?page=rightforme
System specifications for: Ranson, WV
Utility: Other
Solar Radiance: Solar radiance (insolation) is the amount
of solar energy received on a given
surface area in a given time. Commonly
expressed in kilowatt-hours per square
meter per day (kWh/sq m/day). This
measurement varies based on weather
and latitude of the given location. 4.62 kWh/sq m/day
Avg. Monthly Usage: This is the amount of electricity you
consume on average every month. It is
either determined by your input or
approximated by your electricity bill
divided by the cost per kilowatt hour
in your area ($0.0688/kWh). 1,526 kWh/month
System Size: This approximation is for a system to
produce enough electricity to offset
50% of your yearly usage.
It is determined by taking your avg.
daily usage, and dividing that by your
(solar radiance x 80%). The 80% is used
for the inherent inefficiencies in solar
power systems (95% inverter inefficiency,
89% weather impact, 95% inefficiency due
to soiling, utility, and module
inefficiencies). 6.85 kW
Roof Size: Approximate roof size needed to
accomodate your solar power system
can be deteremined by taking the
size of the system and dividing by
10 to get the square footage
(10 watts/sq ft). 684 sq ft
Estimated Cost: The approximate cost is an estimation
based on a price of $8/watt. This is
the average rate, including parts and
installation, for systems above 2kW. $54,782.04
Post Incentive Cost: The post incentive cost is an estimation
based on the available credits/rebates for
your area. This may include kWh
production incentives for up to 25 years
if applicable in your area. This provides
an approximation of the local/state
incentives, and should only be used as
an approximation. $36,947.43
Federal Incentives
Tax Credit: 30% Federal Renewable Energy Tax Credit
State Incentives
Tax Credit: 30% ($2,000.00 max) Residential Solar Energy Tax Credit
Estimated Cost: The approximate cost is an estimation based on a price of $8/watt. This is the average rate, including parts and installation, for systems above 2kW. $54,782.04
Post Incentive Cost: The post incentive cost is an estimation based on the available credits/rebates for your area. This may include kWh production incentives for up to 25 years if applicable in your area. This provides an approximation of the local/state
incentives, and should only be used as an approximation. $36,947.43
Avg. Monthly Savings: $52.49 25
Year Savings: The 25 year savings is based on the
amount of electricity cost you save over a 25 year period assuming a yearly
4% increase in utility rates. $26,234.12 25
Year ROI: 71.00%
Break Even: 30.79 years
The electricity you use causes the release of 27,468 pounds per year of carbon dioxide (which promotes global warming). Driving 30,438 miles in an average car emits an equal amount. To offset the yearly emissions, it would require planting 69 trees a year.
Hey Great! I plugged in my average power usage for a 30 day period (from my electric bill) and let it do its thing. The calculator is based on professional installations using state of the art systems. The results are below.
This sucks!!!!!!!!!!! We have to do better!!!!!!
This is what drives me and this is why I am here to promote a grassroots effort to make it better and cheaper so that anyone can afford to reduce their carbon footprint and SAVE MONEY doing so. You can not rely on corporations when everybody is in this for major profit.
The results below show it will take 30 years to breakeven. Who but the wealthiest can or will do this? By the way, the newest of solar panels have a 30 year life expectancy and from what I have seen in the real world the power accessories (i.e. inverters, controllers and batteries) have far less. If you go this route you will never ever break even unless you back feed the grid and reduce you consumption. Even then they will only pay you the whole sale price (far less than what you are charged) for what you produce. I have seen advertised 'How-To' books (@$49.95) and videos on building your own solar panel for under $200, I have not purchased these guides simply because I know how to reuse old panels but I am very tempted to see if they are worth the money so that I can advise you on a better way.
For those of you interested in alternative methods, I recommend you visit another site I found. I have yet to read everything on it but it does look promising. Low Tech Magazine at http://www.lowtechmagazine.com/ for better solutions.
Calculator found at
http://www.findsolar.com/index.php?page=rightforme
System specifications for: Ranson, WV
Utility: Other
Solar Radiance: Solar radiance (insolation) is the amount
of solar energy received on a given
surface area in a given time. Commonly
expressed in kilowatt-hours per square
meter per day (kWh/sq m/day). This
measurement varies based on weather
and latitude of the given location. 4.62 kWh/sq m/day
Avg. Monthly Usage: This is the amount of electricity you
consume on average every month. It is
either determined by your input or
approximated by your electricity bill
divided by the cost per kilowatt hour
in your area ($0.0688/kWh). 1,526 kWh/month
System Size: This approximation is for a system to
produce enough electricity to offset
50% of your yearly usage.
It is determined by taking your avg.
daily usage, and dividing that by your
(solar radiance x 80%). The 80% is used
for the inherent inefficiencies in solar
power systems (95% inverter inefficiency,
89% weather impact, 95% inefficiency due
to soiling, utility, and module
inefficiencies). 6.85 kW
Roof Size: Approximate roof size needed to
accomodate your solar power system
can be deteremined by taking the
size of the system and dividing by
10 to get the square footage
(10 watts/sq ft). 684 sq ft
Estimated Cost: The approximate cost is an estimation
based on a price of $8/watt. This is
the average rate, including parts and
installation, for systems above 2kW. $54,782.04
Post Incentive Cost: The post incentive cost is an estimation
based on the available credits/rebates for
your area. This may include kWh
production incentives for up to 25 years
if applicable in your area. This provides
an approximation of the local/state
incentives, and should only be used as
an approximation. $36,947.43
Federal Incentives
Tax Credit: 30% Federal Renewable Energy Tax Credit
State Incentives
Tax Credit: 30% ($2,000.00 max) Residential Solar Energy Tax Credit
Estimated Cost: The approximate cost is an estimation based on a price of $8/watt. This is the average rate, including parts and installation, for systems above 2kW. $54,782.04
Post Incentive Cost: The post incentive cost is an estimation based on the available credits/rebates for your area. This may include kWh production incentives for up to 25 years if applicable in your area. This provides an approximation of the local/state
incentives, and should only be used as an approximation. $36,947.43
Avg. Monthly Savings: $52.49 25
Year Savings: The 25 year savings is based on the
amount of electricity cost you save over a 25 year period assuming a yearly
4% increase in utility rates. $26,234.12 25
Year ROI: 71.00%
Break Even: 30.79 years
The electricity you use causes the release of 27,468 pounds per year of carbon dioxide (which promotes global warming). Driving 30,438 miles in an average car emits an equal amount. To offset the yearly emissions, it would require planting 69 trees a year.
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