Characteristics of an image formed by the plane mirror are :-
* Virtual and erect (up right ) .
* The image is of same size as that of the object .
*The image is far behind the mirror as the object is in front of it .
*The image is laterally inverted .
The five properties of an image created in a plane mirror are virtual, upright, laterally inverted, the same size as the object and the same distance behind the mirror as the object is in front of it.
The image of the object in a plane mirror is located at the same distance behind the mirror as the object is in front of it. Therefore, the image of the object would be located 15 millimeters behind the mirror.
The distance between the object and mirror is 15 mm. The distance between the image and mirror is 15 mm. Therefore, the distance between the image and object is 15 mm plus 15 mm which equals 30 mm.
To do this get a plane mirror and two pins. 1.place the first pin in front of the mirror and let it stand firmly. 2.the second pin would act like a search pin-move it until it coincide with the image of the first pin. 3.avoid error due to parallax in 2 4.read the distance of the first pin from the mirror and now the second from behind the mirror,you will find out they are approximately the same since you can't do it perfectly at home. 5.Any small object can also be used
Periscope: Uses two plane mirrors at an angle to allow the user to see objects not in their direct line of sight. Kaleidoscope: Contains several plane mirrors to create colorful symmetrical patterns from objects inside. Reflecting telescope: Utilizes a series of plane mirrors to reflect and focus light in order to form an image for viewing celestial objects. Laser level: Incorporates a plane mirror to project a straight laser line for leveling and alignment purposes. Dental mirror: Features a small plane mirror to help dentists view areas of the mouth that are difficult to see directly.
The five properties of an image created in a plane mirror are virtual, upright, laterally inverted, the same size as the object and the same distance behind the mirror as the object is in front of it.
The answer is 15 millimeters behind the mirror, and the distance from the actual object to the image is 30 millimeters. Plane mirrors have a flat focus that places the image as far behind the mirror as you are in front of it.
The image of the object in a plane mirror is located at the same distance behind the mirror as the object is in front of it. Therefore, the image of the object would be located 15 millimeters behind the mirror.
1. Image is upright 2. Image is virtual 3. Image is of same size as object 4. Image is laterally inverted 5. Distance from object to mirror is equal to the distance from the mirror to the image
The image will be located the same distance behind the mirror as the object is in front of it, so the image will be 15 millimeters behind the mirror.
15 millimeters.
30 millimeters
The distance between the object and mirror is 15 mm. The distance between the image and mirror is 15 mm. Therefore, the distance between the image and object is 15 mm plus 15 mm which equals 30 mm.
To do this get a plane mirror and two pins. 1.place the first pin in front of the mirror and let it stand firmly. 2.the second pin would act like a search pin-move it until it coincide with the image of the first pin. 3.avoid error due to parallax in 2 4.read the distance of the first pin from the mirror and now the second from behind the mirror,you will find out they are approximately the same since you can't do it perfectly at home. 5.Any small object can also be used
How much longer must the minimum length of a plane mirror be for a 6 ft 4 in man to see his complete heat to toe image than for a 5 ft 2 in woman to do so?Read more: How_much_longer_must_the_minimum_length_of_a_plane_mirror_be_for_a_6_ft_4_in_man_to_see_his_complete_heat_to_toe_image_than_for_a_5_ft_2_in_woman_to_do_so
5 uses of mirrors
Periscope: Uses two plane mirrors at an angle to allow the user to see objects not in their direct line of sight. Kaleidoscope: Contains several plane mirrors to create colorful symmetrical patterns from objects inside. Reflecting telescope: Utilizes a series of plane mirrors to reflect and focus light in order to form an image for viewing celestial objects. Laser level: Incorporates a plane mirror to project a straight laser line for leveling and alignment purposes. Dental mirror: Features a small plane mirror to help dentists view areas of the mouth that are difficult to see directly.