Sunday, 29 July 2012

Peterborough Museum Ghosts Sightings and Pictures.

Picture Album At the bottom of this article.

*News Paper Article*
The Yarrow family lived on the premises, in a flat on the first floor in today what is part of the geology gallery – but it was to be a flat which was to chill their blood and give them the fright of their life.
In September 1931, Mr Yarrow went out for the afternoon taking his sons with him. His wife was left alone in the building to deal with the last few visitors and lock up at the end of the day.
This she did, then went back up to the flat in order to start preparing the evening meal ready for the family's return.
After about half an hour, she heard a noise out on the main staircase, which she assumed was her family returning and went out to greet them.
But when she reached the stair doors she came face-to-face with a young man coming up the stairs.
She described the man as being about 30, with brown hair, and wearing a green suit. Mrs Yarrow assumed he was a visitor she'd locked in by mistake.
But she soon realised he was no human visitor . . .
His footsteps were unnaturally loud, which were scary enough in themselves, apart from the fact that he was actually floating up the stairs.
The ghostly figure reached the landing in front of her, walked through the doors right next to her – without opening them – and down the corridor, and vanished into thin air.
Mrs Yarrow left the building as quickly as possible.
The ghost is thought to be that of a First World War Australian Soldier, Sergeant Thomas Hunter. Hunter was born in Newcastle in 1880, but emigrated to Australia as a young man, where he worked as a coal miner in New South Wales.
In 1914, at the outbreak of the war, he enlisted with the Australian army, the ANZACs, and served at Gallipoli and on the Western Front.
He was seriously wounded in June 1916, then treated in a field hospital. It was decided he needed treatment in a more specialised hospital in Britain, so was shipped back, then put on a train north.
Medical staff found that his condition was worsening, so the train was stopped at the next convenient station – Peterborough.
He was taken to the nearest hospital, which is now the museum, but by then it was too late. He died in the building on July 31, 1916
He is buried in the Broadway Cemetery, and his ghostly figure hasn't been seen since the 1970s, but a cold atmosphere may descend over certain parts of the building with no warning.
And people have felt the touch of an ice-cold pair of hands. And museum staff report that furniture is regularly found moved around overnight . . . *End of News paper article*

History of Peterborough Museum

Although the main part of the building as we see it today dates back to 1816, the first recorded house on the site was built in the 16th century for the Orme family on land given to them by Henry VIII in 1538. The house, named 'Neville Place' is marked on a 1611 map of Peterborough and can be seen in a 1731 drawing of the city. It is thought that stonework from this original building probably survives in the museum cellars.

The 1816 building took the form of a grand Georgian house for Thomas Cooke, Peterborough magistrate, who lived there until his death in 1854. It was sold to the third Earl Fitzwilliam, who allowed the mansion to be used as the city's first hospital, the Peterborough Infirmary, from 1857 until 1928. A fire in 1884 led to alterations being made, with new wings added and an extension to the rear. However, upon completion of a new hospital as a memorial to Peterborians lost in the First World War, the building was no longer needed for that purpose. It was opened as a museum in 1931, with an art gallery added in 1939 and a major refurbishment carried out in 2011.

Many of the building's Georgian features can still be seen today, as can traces of its use as a hospital - the modern conservation room is actually the old operating theatre.

Update 2012: The old operating theatre has been restored to its former glory during the recent refurbishment and is now a faithful recreation of how it would have looked during its heyday. It is very much hoped that this will encourage more paranormal activity!

Ghosts of Peterborough Museum

Peterborough Museum is regarded as the most haunted building in the city, and as such has been a popular venue for ghost-hunters for many years. In April 2005, Living TV's 'Most Haunted' team carried out a filmed investigation and encountered a number of phenomena, including an episode in the cellars where a door apparently slammed by itself - causing everyone to flee the area!

Perhaps the most well known ghost at Peterborough Museum is that of a grey figure, seen on the stairs or along the first floor corridor. It is believed to be the spirit of Thomas Hunter, an Australian soldier who died from his wounds when the building was a hospital back in 1916. It is said that a nurse who had looked after him actually saw the ghost shortly after his unfortunate death and was thus able to identify it as being him!

Thomas was seen almost immediately when the building re-opened as a museum in 1931. Mr. Yarrow was the caretaker and lived there with his wife and two children. Having gone out for the afternoon with the children, Mr. Yarrow had left his wife to close up at the end of the day. After bolting the door and heading upstairs to their first-floor flat (located in what is now the geology department), Mrs. Yarrow heard footsteps on the staircase and came out to greet her family. However, instead of her husband and children, she saw a young man coming up towards her. Initially thinking she had inadvertently locked a visitor in, she was about to call out when she realised that there was something wrong. The footsteps were unnaturally loud and when she looked closer she realised that the man was actually floating up the stairs. He passed her on the landing without so much as a glance in her direction, walked through the double doors on the first floor (without opening them) before promptly vanishing into thin air. Mrs. Yarrow can be forgiven for leaving the building in rather a hurry!

The general consensus amongst museum staff and ghost hunters seems to be that the cellar area is a definite paranormal 'hot spot'. Slamming doors, strange noises and a threatening male presence have all been reported on many occasions. Objects are also often thrown in the general direction of anyone investigating this area and a hooded figure has shown itself to astonished groups several times.

Other ghosts of Peterborough Museum include a dark male figure seen and felt by the recreation period shop, a roman soldier in the archaeology area, a little girl who roams the geology area, a kitchen maid who fell to her death on the back stairs and a white lady who is seen on the upper floor. During the recent refurbishment, builders reported hearing strange noises and the having the unnerving sensation of being watched. There are other tales surrounding this intriguing location which you will hear on the night during a guided tour by one of the museum staff.

During the investigation you will have access to areas not open to the public, including the old operating theatre and the back stairs. Peterborough Museum is considered by many groups to be one of the places you are most likely to experience genuine paranormal activity in England, so bring your cameras and camcorders and you never know - you may capture something extraordinary!


Tuesday, 24 July 2012

Fire House Orb


08:00:16 UTC

Your Email Address:

Your Name.:

Picture Description:
I was wonderning if you would be able to help me with a photo that i took at my
fire house. I took two pictures and one shows an "orb" and the other didn't.
There have been weird things ever since I joined and even before, such as the
fire alarm going off without activation, unexplaned walking and door slaming,
and also mumbling and objects knocked over when only a small group of people are
accounted for. The picture was taken with a Fujifilm Finepix A210

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Lumire Hotel Ghost Indonesia

18:38:02 UTC

Your Email Address:

Your Name.:
Paul Hunstad

Picture Description:
I took this picture in the Lumire Hotel in Jakarta, Indonesia. It used to be the
Aston Hotel that apparently is a very old hotel that existed during the Dutch
colonial period.  I shot this picture on film using Fuji Superia ISO 200 film
and a Fuji Silvi 1000 film camera. I saw nothing when I took the picture, but
this is what showed up after I took it. It looks like a headscarf but if you
look more closely you may or may not see a long gown underneath it.  Let me know
if film chemicals may have caused this abberation. I examined the film negative
and it also has this anomaly on it.  I only use Photoshop to remove scratches
and "auto color", "auto contrast" and "auto levels".  I did not manipulate the
picture to produce this anomaly. Thanks!  Paul (expatriate living in Jakarta)
Upload Your Ghost Picture:

Do you know what this picture is?

Orb From My Land.


00:07:59 UTC

Your Email Address:

Your Name.:

I have been using my camera for yrs to capture orbs and other things i have sent
you some pics to look at they come from my land every time thank you .

Upload a Picture - EVP - Video:

Is this dust? what is your views?

Saturday, 21 July 2012

Ghost Caught at Restraunte


20:46:46 UTC

Your Email Address:

Your Name.:

Picture Description:
this ghost was in our restraunte at night caught on our tapes its a dark man
holding tea towel you can see him look close his hands holding tea towel and his
dark head this was taken 2 years ago its real not fake we never told anyone so
we would not scare customers away

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Mum Look At My Shoes - GHOST!!!!

date: 2012-01-02
time: 08:52:18 UTC
Your Email Address:
Your Name.: gwen banks

Picture Description: i was at the mall taking what i thought was a picture of my daughters new shoes after i took the picture i realized it wasnt her shoes i had captured Upload a Picture - EVP - Video:


Tuesday, 17 July 2012

How an Orb is Created or Caused - Types of Orbs With Pictures.

How an Orb is Created
This Article will show you a number of ways orbs are made or caused
There are a number of natural causes for orbs in photography and videography which include:
  • Dry partical matter such as dust, pollen, insects, etc.

  • Droplets of liquid, moisture

  • Foreign material on the camera lens
  • Foreign material within the camera lens
  • Pieces of hair hanging down in front of the lens

  • Camera lens covers on strings hanging loose
  • Cobb webs

  • Fingers in the way

Particles such as dust and water droplets can be lit up by the flash. These particles need to be within a few centimeters of the camera lens, meaning very close in both proximity and plane as the camera lens axis. Since the air we breath is not particle free, it seems the chance of this occurring is very high. Most buildings are inhabited by microscopic flying insects that we can't see with our eyes but can be seen by the camera. They survive all year round, especially with central heating and air. Have you ever seen those little light balls on night vision video that seem to move rapidly and sporadically? In the experiments that I have conducted, I have found water droplets to be more reflective than dust particles.

A question that arises is why haven't orbs been noticed before in previous decades. There probably have been anomalous images of this sort in pictures before, but they were few and far between and considered to be merely occasional film flaws.

How an Orb is Created
A dust orb is created because a solid, reflective, rough-textured airborne particle, such as a dust particle, is situated near the camera lens and outside the depth of field. In other words, out of focus. Some common characteristics of dust orbs in photographs may be showing some sort of nucleus due to the rough texture of the surface.

Dust particle blown up.

Orbs of a rectangular or octagonal shape are caused because an object with a shape similar to the aperture (the aperture is the hole that opens to let light through the lens) of the camera lens is out-of-focus (beyond depth of field range). The object will begin to take the shape of the aperture.

In other words, if the aperture of the camera is a hexagon, an out-of-focus dust orb will begin to take the shape of a hexagon, particularly towards the center of the image.

Naturalistic/Man-Made Ways
The newer photographic equipment is somewhat different from that available in previous decades in at least two ways. The first is the greater distance over which flash pictures can be taken, a result of increased film sensitivity ("speed" ASA 400 or 800 film) or in the case of a digital camera or a video camera, they use a "focal plane detector array," aka CCD (a charge coupled device plays the role of film in digitals), and an increased brightness of the flash itself. The overall increase in sensitivity and flash brightness results in a reach of up to 30 feet from the camera, whereas in the past one was lucky to get a good flash picture at 8 feet.

The second is the proximity of the flash unit to the lens, especially on the smaller cameras, being only 2-3 inches away, whereas in decades past the flash units were typically 5 or more inches away from the lens. The decreased distance between the flash and the lens means that the edge of the "beam" from the flash passes very close to the lens, decreasing the angle of reflection back into the lens.

Angle of Reflection

In the diagram above, the ray of light approaching the mirror is known as the incident ray (labeled I in the diagram). The ray of light, which leaves the mirror, is known as the reflected ray (labeled R in the diagram). At the point of incidence where the ray strikes the mirror, a line can be drawn perpendicular to the surface of the mirror; this line is known as a normal line (labeled N in the diagram). The normal line divides the angle between the incident ray and the reflected ray into two equal angles. The angle between the incident ray and the normal is known as the angle of incidence. The angle between the reflected ray and the normal is known as the angle of reflection.

Diffuse Reflection

When light strikes a rough or granular surface, it bounces off in all directions due to the microscopic irregularities. Thus, an image is not formed. This is called diffuse reflection. The exact form of the reflection depends on the structure of the surface. Diffuse interreflection is a process whereby light reflected from an object strikes other objects in the surrounding area, illuminating them. Diffuse interreflection specifically describes light reflected from objects, which are not shiny or specular.

In real-life terms this means that light is reflected off non-shiny surfaces such as the ground, walls, or fabric, to reach areas not directly in view of a light source. If the diffuse surface is colored, the reflected light is also colored, resulting in similar coloration of surrounding objects.

Lens Flare

Lens flare from sun causing a hexagonal shape.

Another phenomena that is often mistaken for something paranormal is called "lens flare" which occurs when a bright light source (most often the sun) reflects off a portion of the lens and creates internal reflections of the aperture of the camera. Generally flare can be ruled out of most photos taken at night, but can be a problem with shooting pictures during the day.

Slow Shutter Speed

I cannot tell you how many photos I have seen from people who say, "Look, it's paranormal -- the ghost caused it to blur." No, the ghosts did not do it. It's called a slow shutter speed. The amount of light reaching the film or CCD is known as the exposure and this is controlled by two items on a camera -- the aperture and shutter speed.

The aperture is a variable hole in front of the lens that adjusts to let more or less light through, and the shutter speed is a cover over the film or CCD that controls the length of time that the light reaches the film. By adjusting the shutter speed you can control the movement of the subject. A fast shutter speed will freeze the subject and a slow shutter speed will make it look blurred as the subject moves. You can also combine flash with a slow speed to get movement and blur all in the same shot.

The aperture (how big or small the lens diaphragm inside a lens opens up) allows different amounts of light to fall onto film through the lens that's attached to your camera body. The shutter speed (the shutter curtain duration) controls how long it opens up to absorb the amount of light that falls onto film.

Light is electromagnetic radiation with a wavelength that is visible to the eye (visible light).

The three basic dimensions of light are:

  • Intensity (or amplitude), which is related to the human perception of brightness of the light,
  • Frequency (or wavelength), perceived by humans as the color of the light, and
  • Polarization (or angle of vibration), which is not perceptible by humans under ordinary circumstances.

Light entering the eye is absorbed by light-sensitive pigments within the rod cells and cone cells in the retina, which creates electrochemical nerve pulses that travel through the optic nerve to the brain, producing what we call vision.

Color and Wavelength
Color results from an interaction between light, an object, and the viewer. All three elements must be present for color to exist as we know it. Light is reflected off the object and back into the viewers' eyes, this is how we see color. If you are holding a red rose and you turn away from that rose will it still be red?

The answer is no, all 3 conditions are no longer present.

Film cameras are based off of visible light. They can only record what's in the visible spectrum, not outside. They have faster film speeds but that only means the coatings on the film are made to be more sensitive to low light. Film has three layers which respond to green, blue, and red -- the same as the human eye. The human eye can only sense three colors, blue (B), green (G) and red (R), but through a balanced mixture of these three colors, we are able to see all colors. The camera cannot take a picture of something that's not visible, however it can see a different light angle than you.

If two people are standing side by side and one sees a ghost and the other does not, it doesn’t mean it wasn't there. The other person could be at a different angle of reflection and not be able to see it.

The light we see with our eyes is really a very small portion of the electromagnetic spectrum. The region of the electromagnetic spectrum that is visible to a person's eye ranges from 400 to 700 nanometers. This is a mere slice of the massive electromagnetic spectrum. Wavelengths are measured in nanometers, which is one-billionth of a meter. Each wave is described by its wavelength -- the length from wave crest to adjacent wave crest. We use many of the invisible waves beyond the visible spectrum in other ways -- from short wavelength x-rays, to the broad wavelengths that are picked up by our radios and televisions.

The Electromagnetic Spectrum

Our eyes have light sensors that are sensitive to the visible spectrum's wavelengths. When light waves strike these sensors, the sensors send signals to the brain. These signals are often perceived by the brain as a particular color. Exactly which color is seen depends on the composition of wavelengths in the light waves. For example, if the sensors detect all visible wavelengths at once, the brain perceives white light. If no wavelengths are detected, there is no light present and the brain perceives black.

Visible light is typically absorbed and emitted by electrons in molecules and atoms that move from one energy level to another.

The rainbow shows the visible part of the spectrum, infrared (if you could see it) would be located just beyond the red side with ultraviolet appearing just beyond the violet end.

The intervening frequencies are seen as orange, yellow, green, and blue.

Some animals, such as bees, can see UV radiation while others, such as snakes, can see infrared light.

However, because UV is a higher frequency radiation than visible light, it very easily can cause materials to fluoresce visible light. Fluorescence is the process wherein a molecule absorbs a photon of radiant energy at a particular wavelength and then quickly re-emits the energy at a slightly longer wavelength. According to modern theory, electrons are arranged in energy levels as they circulate around the nucleus. When electrons gain or lose energy, they jump between energy levels as they are rotating around the nucleus. As electrons gain energy, they move to the third, or outer, level. As they lose energy, they move to the inner or first energy level. One of the ways a molecule can gain energy is by absorbing light. If a molecule absorbs light, the energy of the light must be equal to the energy required to put the molecule in one of the higher energy states. When a molecule reaches an excited state, it does not stay there for very long, but quickly returns to a lower energy state either by emitting light or by colliding with another atomic particle.

How Do Infrared Cameras Work?
Cameras that can detect infrared and convert it to light are called night-vision cameras or infrared cameras. These are different from image intensifier cameras, which only amplify available visible light.

Infrared and thermal energy is light that is not visible because its wavelength is too long to be detected by the human eye. It is the part of the electromagnetic spectrum that we perceive as heat. Infrared allows us to see what our eyes cannot. Thermal radiation will not be recorded by infrared film because infrared films are not sensitive to a long enough wavelength to show such things as heat patterns.

Thermal infrared imagers are detector and lens combinations that give a visual representation of infrared energy emitted by objects. Thermal infrared images let you see heat and how it is distributed. A thermal infrared camera detects infrared energy and converts it into an electronic signal, which is then processed to produce a thermal image and perform temperature calculations. Thermal imaging cameras have lenses, just like visible light cameras. But in this case the lens focuses waves from infrared energy onto an infrared sensor array. Thousands of sensors on the array convert the infrared energy into electrical signals, which are then converted into a false-color image.

Infrared can be used as a way to measure the heat radiated by an object. This is the radiation produced by the motion of atoms and molecules in an object. The higher the temperature, the more the atoms and molecules move and the more infrared they produce. Any object that has a temperature above absolute zero (-459.67 degrees Fahrenheit); radiates in the infrared. Absolute zero is the temperature at which all atomic and molecular motion ceases.

Even objects that we think of as being very cold, such as an ice cube, emit infrared. When an object is not quite hot enough to radiate visible light, it will emit most of its energy in the infrared. For example, hot charcoal may not give off light but it does emit infrared, which we feel as heat. The warmer the object, the more infrared it emits. We experience infrared radiation every day. The heat that we feel from sunlight, a fire, a radiator, or a warm sidewalk is infrared. Although our eyes cannot see it, the nerves in our skin can feel it as heat. The temperature-sensitive nerve endings in your skin can detect the difference between your inside body temperature and your outside skin temperature.

Infrared light may be invisible to the naked eye but most digital cameras have CCD chips that are sensitive to both the visible spectrum and the near-infrared spectrum. I've heard some digital cameras may possibly see into the UV spectrum also, I don't know that part for a fact though just hearsay at this point; I haven't tried any experiments on that end.

Video cameras with night vision capabilities seem to show orbs in motion, well bad news guys this is merely the infrared camera picking up the IR LED patterns. The LED (Light Emitting Diode) throws off a beam of light invisible to the human eye, but seen by the night vision cameras. The cause is two infrared LEDs mounted just beneath the lens on every model. These act exactly like mini headlights, sending an IR beam out to about 6ft in front of the camcorder. Sorry, no ghost here.

Digital Cameras
The way the CCD sees the world is very different from the way we see it or a film camera sees it. We already know about the IR sensitivity of the CCD. All CCDs rely on software to construct the image from the millions of individual pixels. In consumer cameras this software needs to "compress" the raw data in order to get enough pictures onto the storage media or memory. This compression and the software compression algorithms vary, not only from different makers but even across the maker's own range of products.

A 3 megapixel CCD actually captures less than ¼ of the total image information available within a scene when compared with a 35mm camera negative. The software has to fill in the gaps in the image by making mathematical calculations with the information from neighboring pixels, thus a single pinpoint of light in a scene may be ignored completely or seen and then "expanded" by the software as it compares and interpolates each pixel. This can cause a mix of out of place pixels to fall into places causing some people to claim to see faces and images in digital pictures because of shaded pixels.

This is a missing pixel. It's square.

Testing your camera
Use the "TV remote test" to determine if your digital camera is sensitive to infrared light. Television remote controls use infrared light to turn the TV on and off and to change channels. Aim your TV remote control at the lens of your digital camera from a few inches away, push a button on your remote, and view the image on the LCD panel (not the optical viewfinder) of the camera. If you see a white flash of light coming from the TV remote on your camera's LCD screen, you've just determined that your camera is infrared-sensitive.

IR beam off on remote control

IR beam on if camera is sensitive

"Spirit Orbs" are sometimes said to exist more densely around certain haunted regions or to be the spirits of departed loved ones. These types of orbs are sometimes said to have faces, often with discernable expressions and even of recognizable persons. Some feel the size of an orb indicates how great of an impact a life force had in its life time.

This is a picture of a dust orb... nothing more.

Another view of spirit orbs holds that they are non-human spirits, with blue and red orbs symbolizing angels and the devil respectively. Another interpretation of colors in orbs is sex differentiation -- blue for male spirits, and red or pink for female, or that they indicate what mood the spirit is in. If orbs are energy they should be emitting light. Spirit orbs are also felt by some to be curious friendly protectors, particularly of children.

The paranormal belief in orbs is not so straightforward as those who believe that they are simply photographic artifacts.

An often encountered saying is, "Orbs are considered by some people to be the simplest and most common form of a disembodied spirit," but this concept is not supported by all within the paranormal field.

There are those who maintain that the orbs are caused by:

  • Ghosts/spirits
  • Angels/guardian spirits
  • Aliens
  • "The Little People" -- elves, pixies, fairies
  • Interdimensional beings

Even those "true believers" who steadfastly maintain that orbs are of paranormal origin are often forced to concede that dust may be the cause of most orb photos. A subset of these believers say that they can tell the difference between "dust orbs" and "real" (spirit) orbs, sometimes from a close examination of the image, or because of how they felt or were acting at the moment the photo was taken. Some true believers say that the orbs respond to spoken requests to appear, move, or appear as different colors.

Possible Real Orbs

Strange light in Triangular Field in Gettysburg
(No, it's not a lightning bug.)

Supposedly haunted house.

Whatever your belief is when it comes to orb photos, things may not always be what they seem. Just keep in mind to look carefully at what you see and look around you, be more aware of your surroundings when taking a photo. Look for reflective things, don't just point and shoot, as I have seen many people do. I hope some of this information is helpful when trying to decide for yourself what is in your pictures.

Thank you to Rosemary Ellen Guiley, Jamie Henkin, and Lynda Lee Macken for helping me edit and organize this, and Vince Wilson for pushing me to write it.

Robbin Van Pelt graduated from Cecil Community College in 1986 as a Professional Photographic Laboratory Technician with a background in criminal justice, computer repair, electronics, digital imaging, and video work. She also has a certification, as a Web Graphics Designer from Harford Community College She has been involved with the paranormal since 1984. She worked for many years as a photographer for the Department of Defense.

Robbin is the founder of United States Ghosts Chasers; she is Director of Operations and Photo/Video Analyst for The Maryland Paranormal Investigators Coalition. She is Vice-President of Baltimore County Paranormal Research. Robbin uses her skills to help The Baltimore Society of Paranormal Research, Southern Ghost, and The New Jersey Ghost Hunters Society. She has investigated with Mark Nesbitt of "The Ghost of Gettysburg" fame, Troy Taylor the author of The Ghost Hunters Guide Book and 20 other ghost books, and Rosemary Ellen Guily author of The Encyclopedia of Ghost and Spirits and 30 other books on the supernatural.

Robbin was published in her 1st book written by Lynda Lee Macken called Haunted Baltimore. She is also in Ed Okonowicz's book, Baltimore Ghost and Vince Wilson's Ghost Tech and Ghost Science. She was in the October 2004 issue of Baltimore Magazine. Robbin has also appeared on the local major TV stations in Baltimore and in local papers, The Beltsville News, Capital News online and What’s Happening Baltimore Oct. 2005, FATE magazine, the TV show Creepy Canada in 2005 at the USS Constellation and Edgar Allan Poe’s Grave at the Westminster Catacombs. Robbin also filmed an episode for The Discovery Channel in 2006 at the Edgar Allan Poe House in Baltimore and is working on writing her own book called Havre De Grace Hauntings and Legends.

Informational References:
Cool Cosmos

Sunday, 15 July 2012

The 3 Spirits.

date: 2011-12-31
time: 02:57:58 UTC
Your Email Address:
Your Name.: carrie

Picture Description: pic of 3 spirits behind my neice on the right... the man directly behind my neice..and what looks like a lil girl and her pup peeking from behind my neice.. on the right.. directly on the side of her.

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Saturday, 14 July 2012

Maltby Private House Ghosts Pictures and Reports on Investigation.

Maltby Private House Ghost Investigation Report and Pictures.

Date - IRN
Arrived at location

Setup Equipment / Camera’s / Full spectrum light / Wildlife Cam / Black Light / Trigger tri field / Plasma Ball / Strobe Light /

Finished Setup

EMF Sweep, Non found from natural sources

Filming started – Stage: Walk around.

Walk Around Finished.

Photo phase of: Full Spectrum 3D, UV, IR, Full Spectrum, + normal spectrum.

End of Photo Phase. Nothing to report.

EVP Session 1 in Living Room. “Nothing to report on what we heard”
However there was some unusual activity with the K2 & Esmog, The sound of the esmog was ---.- / ---.-/---.- constant nearly (Larry seemed to think it was a phone sound)

EVP Session 1 Ended – Moved to Top of Landing.  EVP Session 2 Started.

EMF Found on the floor 2.5 Reading.

EVP Session 2 Ended – Moved into Main Bedroom – EVP session 3 started

EVP Session 3 Ended – Nothing to report – 15 min brake.

Laser Grid session Started, in Living room.

Laser grid session ended and moved to Top of Stairs, Laser Grid session 2 started.

Laser grid session 2 ended and moved into Main Bedroom. Laser grid session 3 started.

Laser grid session 2 ended, Also tried brake beam experiment no luck there.

Packed away.

Overview: This was a great nice investigation into the paranormal happenings reported by Hayley house owner.

Main activity was reported in the main bedroom and Landing, Were Hayley woke up to find a little boy staring at her from the bottom of the bed. Couple weeks later Hayley’s boyfriend woke up to the same thing. They reported the tv turning itself off, and one time the tv sound was robotic.

For more info on the sightings and reporting’s please watch our Documentary video.

Investigation Notes: We started the investigation expecting the least, placed our equipment around the house, tried some new tactics and experiments for visual and photo with our Natural full spectrum light, Black light, Laser grid, 3D Camera’s IR, UV, AND etc.

 The main puzzling thing was the EMF’s found in the Living room. A  Place were activity wasn’t reported. When doing the walk around Larry couldn’t find any EMF at all. Intill the investigation started that’s when we had EMFS with a strange pattern, of every 40secs to 1 min the k2 / e smog would go off.
Data Logger Readings of Humidity and Tempature

Thank you

Wednesday, 11 July 2012

Fall Staff Experience Ghost Sightings Pictures.

Fall Staff Experience Ghost Sightings and Histoy.

Always a prominent feature on Stratford's landscape, right in the heart of the town, the Shrieve's House and the awarding winning and haunted Shrieve's House barn (The Falstaff's Experience) date back to the 16th century, although a dwelling has stood on this spot since 1196.

The first known tenant of the building was William Shrieve, who was an archer to King Henry VIII. His name still survives today and in a house such high rank, it could be reasonably assumed he was an important figure in his day and may possibly have been a Sheriff of some sort, as his name suggests.

In the 16th century it was a tavern and the tavern keeper, William Rogers, is said to have been the inspiration for Shakespeare's famous comic character Falstaff. There is documented evidence that his family had strong connections with Shakespeare, as Shakespeare's daughter Suzannah was close friends with Elizabeth, the daughter of the Rogers.

In the 17th century, wounded soldiers were brought back to the building after the first battle of the English Civil War at Edgehill. Following the war, John Woolmer, tenant of the building was made the very first Mayor of Stratford.

Having survived two great fires, the plague and Civil War, the house has a lot of secrets to share including hidden priestholes, secret chambers and not forgetting the hauntings

The Hauntings

There are a number of 'dominant' spirits said to be active in the property: an archer from the time of Henry VIII; a serial murderer from the 18th century; a little girl who was a pickpocket in the tavern; a Catholic gentleman from the time of the reformation and a justice of the peace who used his power to run an extortion ring with threats, violence and trumped up charges. There are also sightings of the parliamentary soldiers, children and animals. During certain times of year a dark hooded figure with red glowing eyes, who is said to be a very ancient spirit, stands back and watches.

Extra Sightings.
Ghost of a man in Tudor dress walking up and down the stairs; Feelings of being strangled or having head lice; Apparition of a tall, thin man dressed in black moving along the first floor; Spirit of little girl who tugs at visitors pockets and rearranges the museum at night; Ghost of a pale and ill-looking woman; Footsteps heard and articles thrown across the room when no-one in area; Spirit of an evil man thought to be an 18th century rapist and murderer named John Davies; Sightings of Civil war soldiers; Dark cloaked figure with red eyes which stands and watches people

Ghost Pictures
Sadly i cannot find much evidence of these claims on google images and etc.
Here is the only picture i can find which may be classed as paranormal to some people. .

Tuesday, 10 July 2012

Fort Paul Paranormal Ghosts Investigation Pictures

Fort Paul
Paranormal Investigation Photos with GCUK.

Feel free to take a look at project-reveals photos taken at the paranormal investigation for bbc america.
you will find a mixture of images taken from various equipments.
UV Camera, Full spectrum Camera, IR Flash Camera, Pro Camera, Motion camera in the Blackburn Bev,