![]() ![]() When Dain is not on Tumblr or drawing, he’s a volunteer dog walker at the Progressive Animal Welfare Society and the Seattle Humane Society. He was most recently award the ‘Most Mesmerizing or of 2012‘by WoahDude. Dain works mostly with ink pens and colour dye markers and started making what he calls ‘stereographic gifs’ of his drawings in Feb’12. The GIF is a sketch on creatures from Dain Fagerholm (), an artist currently living in Seattle, Washington. “Wouldn’t know about others, at least the two here, Sir,” answered the man. This man Williams seems to have wronged many a woman?’ Inside the patient was bound in a straight-jacket, shrieking insanely, “Billllllly, Billllllllly!” They moved on to another door and looked in. It broke her heart to have lost him and ever since she has been like this.” “And on their wedding day he ran off with another woman. “She was to marry a man named William,” said the guide. The patient rocked back and forth on her cot, sobbing and sighing, “William,” she repeated over and over. The doctor stopped at a door and they looked through the small window. “I hope that I can be of some help and comfort to these poor souls,” he told his guide. Walking down the dismal, echoing corridors, the minister was troubled by the cries and groans of the patients coming from their rooms. This means that the more be the number of mirrors, the more creative and dense will be the pattern formed as a result.A minister visited an asylum for the mentally disturbed and was taken on a tour of the facilities by one of the resident doctors. The mirrors placed inside the structure of the kaleidoscope are aligned to each other in such a way that the reflection of the objects created by one of the mirrors gets reflected by the second mirror, the image formed on the surface of the second mirror gets reflected on the third mirror and so on. In simple words, the working of a kaleidoscope primarily depends on the alignment of the mirrors. These reflections lead to the formation of a pattern that is unique and tends to vary every time the arrangement of the crystals is changed by shaking the instrument. When the user peeks inside the kaleidoscope through the hole drilled on one side of the tube, he/she can easily observe the multiple reflections of the crystal and glitter particles formed on the inner side of the kaleidoscope walls. To observe the working of a kaleidoscope, one should shake the instrument and peek in through the small hole. The final step is to pour small colourful glass, crystal, or sparkle pieces into the tube. Attach another circular piece of transparent glass that has the same dimensions as that of the cardboard circular cut out to the base of the tube. Now, attach the cardboard circular piece to the top of the tube with the help of glue or tape. It should be noted that the diameter of the circular cardboard cut out should be equal to the diameter of the cylindrical tube. The next step is to cut a circular piece from the cardboard sheet and drill a small hole at its centre. The length of the cylindrical tube is preferred to be longer than the length of the mirror prism. The prism structure made up of mirrors is then fixed inside the hollow cylindrical tube. These mirrors are attached to each other in the shape of a triangular or a pentagonal prism. Typically, a kaleidoscope usually makes use of three or five rectangle-shaped mirrors. The materials required for the construction of a kaleidoscope include a hollow cardboard cylinder, three or more rectangular pieces of plain mirror, a cardboard piece, adhesive tape or glue, a pair of scissors, and a piece of transparent glass. The first step to constructing a kaleidoscope is to join the rectangular pieces of mirrors or reflective surfaces edge to edge with the help of adhesive tape or glue and form a prism shape. Here, ‘X’ denotes the angle of inclination between the two mirrors. The exact number of images of an object formed when it is placed in front of two plane mirrors placed at a particular angle can be easily determined with the help of the formula, (360/X)°-1. The angle between the mirrors serves to be the prime criterion that decides the number of resultant complete and composite or partial images of the object. The number of reflections or the number of images formed as a result can be easily determined by observing the angle at which the mirrors are aligned. Video Game Company London, UK kaleidoscopegames.uk Joined May 2022. One can easily observe the phenomenon of multiple reflections in real life by using more than one mirror to obtain the reflections of an object. This phenomenon is known as multiple reflections. This property of mirrors can be utilized to obtain more than one reflection of an object. ![]() The basic property of a mirror is to reflect the image of any object that is placed in front of it. A kaleidoscope typically works on the principle of multiple reflections. ![]()
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