Table of Contents
- 1 When object is placed at a distance of 0.5 Metre in front of a plane mirror the distance between the object and the image formed by the mirror will be?
- 2 How do you find the distance of the image formed from the mirror?
- 3 How do you find the object distance with focal length and image distance?
- 4 How do you find the distance of the image from the object?
- 5 What is the distance between the object and the image?
- 6 How far is the image formed at the back of mirror?
When object is placed at a distance of 0.5 Metre in front of a plane mirror the distance between the object and the image formed by the mirror will be?
The distance between object and image is – 0.25 m.
How do you find the distance of the image formed from the mirror?
- For PLANE MIRRORS:: The distance between the IMAGE and MIRROR = The distance between MIRROR and OBJECT.
- Therefore, Let the distance between the OBJECT and MIRROR be x. Therefore, the distance between MIRROR and so formed IMAGE is also equal to x.
- Therefore, we can write: x + x = 24.
When an object is placed at 0.5 m from a concave mirror?
When an object is placed at 0. 5m from a concave mirror, its real image is formed at 0.
What is lateral inversion?
Lateral inversion is the reversal of mirror image where the right side of the object appears on the left side behind the mirror.
How do you find the object distance with focal length and image distance?
- To calculate the image distance, the lens formula can be used.
- 1/u+1/v=1/f.
- where.
- u is the object distance.
- v is the image distance.
- f is the focal length of the lens.
- If you know the focal length and object distance, using the above formula image distance can be calculated.
How do you find the distance of the image from the object?
You can use this formula to find distance from image using the formula, m= -v/u = hi/ho.
When you stand 1 meter in front of full length mirror How does your image look like?
If you are standing 1 m in front of a plane mirror, what is the distance between you and your reflected image? d =? Justification: For plane mirrors, the reflected image (a virtual image) and object are along the same line, perpendicular to the reflective surface. The image and object are equidistant from the mirror.
What is the distance of the object from the plane mirror?
Distance of the object from the plane mirror = 1m. In a plane mirror, the image is the same distance as the object. So distance of the image behind the mirror appears to be 1m.
What is the distance between the object and the image?
Then, the total distance between object and image is 4 meters So, if an object is placed 0.5 m from the plane mirror, then the distance between Object and Image is 1 meter It’s a plane mirror so it will create a virtual image which is as far behind the mirror as the real objects is in front of it. Object and image will therefore be 1m apart.
How far is the image formed at the back of mirror?
1 metres is your answer. The image of the object is formed as far behind the back of the mirror as the object is in front of it .so if the object is 0.5 metres in front of the mirror the image will be formed 0.5 metres at the back of the mirror.
What is the distance in front of a concave mirror?
An image an by a concave mirror is 4 times greater than the object. If the radius of curvature 20 cm, determine the object distance in front of the mirror! The object distance = 12.5 cm. 4. A 1-cm high object is placed 10 cm from a concave mirror with the focal length, f = 15 cm. Determine :