## Sign Convention Rule

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The drawing conventions used in the study of the positions of the object and the image differ from one book to another. However, Cartesian drawing conventions are the most commonly used. The pole is taken as a reference point. The rules for sign conventions are as follows: According to the Cartesian convention of characters, the spacing of objects (u) is always negative because the object is placed to the left of the mirror/lens. The focal length (f) is positive for a convex lens and a convex mirror. The focal length is negative for the concave lens and the concave mirror. The set of instructions for defining characters for image spacing, object spacing, focal length, etc. for mathematical calculations when forming an image is called a character convention. The sign conventions in the case of spherical mirrors are made taking into account that the objects are always placed on the left side of the mirror, so that the direction of the incident light is from left to right. The drawing conventions followed for each spherical mirror are given as follows: Cartesian drawing convention: In the case of a spherical mirror, all characters are taken from the pole of the spherical mirror, often referred to as origin or point of origin. . For example, if an image is formed behind the mirror, the distance of the image is measured as + (positive) from the pole along the main axis.

Thus, the size of the image -15cm, negative sign with h`, shows that the image is real and reversed. + a magnification sign indicates that the image is virtual and vertical. Previously, in understanding the concept of sign conventions for spherical mirrors, some terms commonly used in a spherical mirror were discussed for the first time. Magnification = Image Height / Object Height. If the magnification is less than one, it means that the image is smaller than the object. The positive sign indicates that the image is vertical. Hence +0. While studying the reflection of light by spherical mirrors and the formation of images by spherical mirrors, a number of drawing conventions are necessary to learn that focal length, a distance of the object or image from the mirror, and the magnification of the mirror can be measured. Answer.

The negative sign in the magnification value indicates the type of mirror the mirror used is convex, and if it is positive, then the mirror used is a concave mirror. Sound: It is produced in a material medium by a vibrating source, when a material medium is vibrated, it pushes the air near it, this is called compression (high-pressure area), and when the particle recedes, it creates an area of low pressure known as scarcity. Thanks to this compression and dilution, the sound waves move. Sound waves required a median to move a material that may be solid liquid or the speed of sound is highest in solids. Virtual images are always behind the mirror. . Virtual images can be enlarged, reduced in size, or enlarged in the same size as the object. Virtual images can be formed by concave, convex, and plane mirrors.

Virtual images are not real; so you could never see them when they were spotted in a mirror. These have a frequency greater than 20khz we can not recognize these sounds, creatures such as dogs, cats, bats and mosquitoes can hear it. . Example 1: A concave mirror creates a real image with two enlargements of an object placed 10 cm in front of it. Find the position of the image. 4. Pole – The center of the spherical surface is called the pole. Linear magnification produced by a mirror is defined as the ratio between the size (or height) of the image and the size (or height) of the object. It is designated by m.

The image is formed at a distance of 12 cm behind the concave mirror, since v is positive. Therefore, the image is virtual. Thus, the image size of the car is 0.15 times the actual size of the car. . Usually, you see yourself as a mirror image. This image is actually the inverted or “mirrored” image, not the photo. . On the phone of the other person who sees the photo of you, they see the image not reflected, which seems normal but strange to you.

When a sound wave reaches our ear, it is characterized by 3 factors: R = 3-5 m f = R 2 3-5 2 = 1.75 m, u = – 100 m. It refers to the highest amplitude of sound, the highest amplitude is volume, and the lowest amplitude is volume.] Example 2: A 5 cm object is placed at a distance of 20 cm from it Concave minor focal length 15 cm At what distance from the mirror should a screen be placed to obtain the sharp image? Also calculate the size of the image. If h` = size (or height) of the image generated by the mirror and h = size (or height) of the object. 3. Quality: The quality in this property of sound distinguishes the sound produced by two sources with the same intensity and pitch. (You`ll have no trouble remembering it if you think about it correctly: a real image should be where the light is, that is, in front of a mirror or behind a lens.) Virtual images are created by diverging lenses or by placing an object in the focal length of a convergent lens. (b) directly proportional to the square of the amplitude, square of the frequency and density of the medium. 3) Ascending distances perpendicular to the main axis are considered positive, while descending distances perpendicular to the main axis are considered negative. Negative magnification indicates that the image is reversed. When the object is placed closer to a converging lens than to the focal length, the rays diverge on the other side of the lens. By extrapolating these lines (the pink lines), the position of the virtual image can be found. In a convex mirror, in both existing cases, it forms a virtual image, straight and diminished.

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