That will depend upon your focal length--how far your eye is from the mirror. At a useful focal length the mirror can only be a few inches shorter than the subject.
What you need to do is answer her questions correctly. She describes five Greek gods (whose statues were in the museum) and asks their names. The five are : Ares, Hermes, Aphrodite, Artemis, and Hestia.
Well, the satellite dishes in my area are mostly grey, not white - but to the question - why painted and not mirrored?. The wavelengths that need reflecting by the parabolic mirror of the satellite dish are in the microwave range - a millimetre or so. So, the dish need only be smooth compared to that length, and a paint finish meets that standard, though of course, most of the reflection is done by the metal of the dish. The paint need not be radio-conductive or radio-reflective. Were the dish needed to operate in the optical range, then indeed, a mirror finish would be needed.
It's the same reason you can only see one side of your head when you look in a mirror. The astronauts would need a mirror to see round the back.
Night vision goggles amplify available light to enhance visibility in low-light conditions. When looking at a mirror with night vision goggles on, the goggles will intensify the light reflected by the mirror, potentially causing a bright glare or glare interference that could affect visibility. Additionally, the goggles may pick up the infrared reflection from the mirror's coating or backing, depending on its composition.
A parabolic mirror is shaped such that parallel incident light is reflected to a point called the focus. You will have to establish the size required, and the shape. There is an entry in Wikipedia on Parabola, giving the algebra.
It depends on how far away it is from you. It can be smaller if further.
To create a DIY mirror door for your room, you will need a full-length mirror, a door, adhesive mirror tiles, a measuring tape, and a strong adhesive. Measure the dimensions of the door and mirror to ensure a proper fit. Apply the adhesive mirror tiles to the door in a pattern of your choice, making sure they are securely attached. Once the tiles are in place, carefully attach the full-length mirror to the door using the strong adhesive. Allow the adhesive to dry completely before hanging the mirror door in your room.
The length of a full length skirt will vary depending on the height of the person wearing it. A full length skirt should come to the ankles; most off-the-rack dresses that wish to be worn full length would need to be altered to fit the person correctly.
form_title= Metal Floor Mirror form_header= Install a floor length mirror in your home. What size do you want the mirror?*= _ [50] Where will the mirror be hung?*= _ [50] How many mirrors do you need?*= {1, 2, 3, 4, 5, More than 5}
When your bladder is full, or when you need to excrete waste from your body.
There is no need to purchase mirrors; a pedestal or base for the bride to stand on so she can see her wedding dress in a full length mirror because she can do that at the bridal shop where she bought the wedding dress. A carpeted platform is in the fitting room for the bride to stand on. If the dress was made then a mirror on legs could be purchased and given to the bride as a wedding gift for her new home (be it an apartment or home.) Some lovely mirrors on legs (old fashion and quite beautiful) can be found at antique stores or secondhand stores.
Depends on what the movie is about.
To see an upside-down reflection of yourself in a convex mirror, you would need to stand closer to the mirror within the focal point. The image formed in a convex mirror is always virtual, upright, and smaller in size compared to the object.
because the stress developed at centre is maximum that is why there is no need for full length progressive laminations.
the heart pumps blood full of oxygen around your body to the cells that need it
To calculate the position of the image formed by a lens or mirror, you need to use the thin lens or mirror formula: 1/f = 1/do + 1/di, where f is the focal length of the lens or mirror, do is the object distance, and di is the image distance. Once you have the values for the focal length and object distance, you can solve for the image distance to determine the position of the image formed.
At the back of the mirror you will find a rubber stopper. The stopper is same color as the mirror. Remove that stopper and it will reveal a screw. Tighten the screw to adjust. Be careful not to remove the screw. If you do you will have to open up the mirror to catch it back. Also, depending on how flexible you are and the length of your screwdriver, you may need to remove the mirror. Use a screwdriver to pry out the plastic cover and and you will see all three screws holding the mirror to the roof.