# What is the distance of your image from you if you stand 3.0 m in front of a plane mirror?

## What is the distance of your image from you if you stand 3.0 m in front of a plane mirror?

Explanation: If you are standing 3m from a mirror, then the mirror reflects what you see. Thus, the mirror reflects an image that is 3m away from it. This results in an apparent image that is 6m from you.

## What is the distance of your image from you if you stand 2.0 m in front of a plane mirror?

For plane mirrors, the object distance (is equal to the image distance. That is the image is the same distance behind the mirror as the object is in front of the mirror. If you stand a distance of 2 meters from a plane mirror, you must look at a location 2 meters behind the mirror in order to view your image.

## What is the distance of your image from you if you stand 1.0 m in front of a plane mirror?

The image is formed at 1 m behind the mirror.

## How far from the mirror is the image formed of an object 1.5 m in front of the mirror?

3 m In the plane mirror, the image distance is always equal to the object distance from the mirror. According to the question, the object distance is 1.5 m so the image distance will be 1.5 m and the distance between the object and image will be 3 m.

## What is the distance of your image from you if you stand 1.8 m in front of a plane mirror?

If the person is 1.8 meters in front of the mirror, then his reflection will be 1.8 meters behind the mirror. This means that there will be a distance of 1.8 + 1.8 = 3.6 1.8+1.8=3.6 1.8+1.8=3.6 meters between the person and his reflection.

## When a person is standing at a distance of 3 m his image shall be formed at a distance of <UNK> m from him?

Thus distance between image and the person d=u+v=3+3=6 m.

## How far away from you is your image when you stand 6 feet in front of a plane mirror?

3-feet In other words, to view an image of yourself in a plane mirror, you will need an amount of mirror equal to one-half of your height. A 6-foot tall man needs 3-feet of mirror (positioned properly) in order to view his entire image.

## How do you find the distance from the final image of a mirror?

1. Refer the above diagram for the following explanation. …
2. Increased distance of S from liquid surface = 10 × (4/3) = 40/3.
3. Hence the object distance seen by the mirror due to refraction is (40/3) + (5/3) = 15 cm.

## When an object is 1 m in front of the plane mirror its image will be blank away from the mirror?

2 m away (Object distance and image distance are the same from a plane mirror. The image of a person 1 m in front of a mirror is 1 m back to the mirror. Hence, the image is 1 + 1 = 2 m away from the person.)

## What type of image is formed when an object is placed at a distance of 1.5 focal length from a concave mirror?

It is virtual and erect. Since the image distance is a positive value, we infer that the image is formed behind the mirror at a distance of 54.54 cm. It is virtual and erect.

## What would your image be when you stand 10 m in front of a full length plane mirror?

Doubt. Ask Your Doubts Initially, the distance between the man and the mirror is 10 m, then, the distance between the man's image and the mirror will also be 10 m. (because the image formed by a plane mirror is at the same distance behind it as it is between the object and the mirror).

## What would your image be when you stand 10 meters in front of a full length plane mirror?

Doubt. Ask Your Doubts Initially, the distance between the man and the mirror is 10 m, then, the distance between the man's image and the mirror will also be 10 m. (because the image formed by a plane mirror is at the same distance behind it as it is between the object and the mirror).

## Where is the image of 5’2 tall woman located when she stands 3m in front of a full length plane mirror?

The image will be located 3m inside the meter. Therefore, the height of women inside the mirror will be 5' 2", and its distance from the mirror will be 3m.

## What is the formula of image distance?

According to lens formual we have `(1)/(v) + (1)/(u) = (1)/(f)`, where u = distance of the object from the lens, v = distance of the image from the lens and f = focal length of given lens. The graph between object distance u and image distance v for a lens is given below.

## How far is the image from the mirror?

Object Distance and Image Distance That is the image is the same distance behind the mirror as the object is in front of the mirror. If you stand a distance of 2 meters from a plane mirror, you must focus at a location 2 meters behind the mirror in order to view your image.

## How will you compare the distance of the object to the distance of the image?

The image distance always equals the object distance. The size of the image is the same as the object (the mirror does not magnify the image).

## What is position of image when an object is placed at distance of 20 cm from concave mirror of focal length 10 cm?

Solution :Therefore V = infinity For an object placed at a distance 20 cm from a concave mirror, the image is formed at the same position.

## What will be the position of image if the object is placed 20cm in front of a concave mirror of focal length 15cm?

So we can now say that the position of the image will be 60 cm from the mirror.

## How far must he walk before he is 5m away from his image?

A distance of 5m between man and his image means that the distance between him and the mirror = = 2.5 m. Thus, the distance he should walk = 10 – 2.5 = 7.5 m.

## Where is the location of the image form?

The image location is thus located at that position where observers are sighting when viewing the image of an object. It is the location behind the mirror where all the light appears to diverge from. In the diagram below, three individuals are sighting at the image of an object along three different lines of sight.

## What is the distance of the image?

The image distance (sometimes confused with the focal length) is the distance of the image to the centre line of the lens.

## How do you calculate image distance and object distance?

Step 1: Determine if the focal length is positive or negative. Step 2: Determine if the image distance is positive or negative. Step 3: Use the equation do=11f−1di d o = 1 1 f − 1 d i to calculate the distance of the object from the lens.

## What is image distance in mirror?

The image distance always equals the object distance. The size of the image is the same as the object (the mirror does not magnify the image).

## When a person stands in front of a plane mirror what is the nature of image?

Image formed by a plane mirror is virtual, erect, same size as of object and laterally inverted.

4.0×10−6m2.

## What is the image distance The distance from?

The image distance is simply the distance from the object to the thin lines. The image distance is the distance from the thin lens to the image. The focal length is a characteristic of the thin lens, and it specifics the distance at which parallel rays come to a focus.

## What is the position of the image when an object is placed at a distance 20cm from a concave mirror of focal length 20cm?

infinity Solution :Therefore V = infinity For an object placed at a distance 20 cm from a concave mirror, the image is formed at the same position.

## What is the position of image when an object is placed at a distance of 20cm from a concave mirror of focal length 15 cm?

Solution : u=-20cm, f=15cm <br> `1/f=1/u+1/v`<br> `1/v=1/15-1/(-20)` <br> `1/v=1/15+1/20=7/60` <br> `v=8.57` cm <br> Nature of the image : Virtual.