The Science Behind A One-Way Mirror

Have you ever seen an interrogation scene on TV?

The criminal is often alone in a brightly lit room with a mirror and can only see his own reflection. However, on the other side of the mirror, the detective is able to see the criminal clearly. How is that possible?

(Source: Giphy)

Today, we will be discussing two main concepts that will help us understand the science behind a one-way mirror.

The path of light that enables our eyes to see our own reflection in a mirror.
How the amount of light reflected off a material affects our ability to see reflections.

What I'll Be Sharing In This Article hide

1. Background Information

2. Let’s Take A Look At This Question

3. Let’s Analyse The Experiment

4. Let’s Analyse Part (a)

5. Here’s The Suggested Answer For Part (a)

6. Let’s Analyse Part (b)

7. Here’s The Suggested Answer For Part (b)

8. In Conclusion

Background Information

Before we start, we need to recognise one VERY IMPORTANT fact. Light is needed for us to see objects in our surroundings. If there is no light, everything becomes… pitch dark!

Now, we know that light is needed to see objects. However, do you know where light comes from?

Light always comes from a light source! Examples of light sources include the sun 🌞, fire 🔥 and the electric bulb 💡. As such, we must note that the path of light always starts from the light source.

If light is needed to see objects, why are we able to see images and videos on our smartphones in the dark? This is because our smartphones give out light! As such, light is able to travel from our phones straight into our eyes, allowing us to watch our favourite videos anytime, anywhere.

Mr Bean loves watching cartoons on his phone! (Source: ytimg)

However, do all objects give out light?

No! Most objects do not give out light! In that case, how are we able to see these objects?

We are able to see these objects because light can be reflected off these objects!

As such, light from the light source can be reflected off an object into our eyes, enabling us to see the object (as shown in the diagram below):

Mr Bean is able to see his bear! (Source: Kaltura)

Now that we know how light travels in order for us to see objects, let’s discuss a question to help us understand how the one-way mirror works.

Let’s Take A Look At This Question

Source: St. Nicholas’ Girls School – 2016 P6 SA1 Examination Paper [Q39]

Let’s Analyse The Experiment

In the experiment, there are 2 data loggers X and Y. We know that the data loggers are able to receive light and measure the amount of light received.

Looking at the diagram, we can tell that:

Data logger X measures the amount of light reflected off the material.

Data logger Y measures the amount of light that passed through the material.

Now, let’s look at the table of results.

Aluminium

Data logger X received the most light among the three materials.

Data logger Y received zero light among the three materials.

As such, we can conclude that:

Aluminium reflected the most amount of light compared to Material R and Clear Glass. Hence, aluminium is the most reflective.
Data logger Y did not receive any light. Thus, no light can pass through aluminium, which shows that aluminium is opaque.

Clear Glass

Data logger X received the least light among the three materials.

Data logger Y received the most light among the three materials.

As such we can conclude that:

The clear glass reflected the least amount of light compared to Material R and aluminium. Hence, clear glass is the least reflective.
Data logger Y received the most light. Thus, most light can pass through clear glass, which shows that clear glass is transparent.

Material R

Data logger X received 700 units of light.

Data logger Y received some 200 units of light.

Material R is unknown but we know the amount of light received by data logger X (amount of light reflected) is more than the amount of light received by data logger Y (amount of light that can pass through).

As such, we can conclude that:

Material R allows more light to be reflected off it than light passing through it.
Data logger Y received some light. Thus, some light can pass through Material R, which shows that Material R is translucent.

Most examination questions related to light ONLY focus on one factor.

The amount of light that can pass through the material. OR
The amount of light that is reflected off the material.

However, in this question, students need to know how to compare two factors.

The amount of light that is reflected off the material. AND
The amount of light canpass through the material.

Let’s Analyse Part (a)

“Based on the results recorded on the table, explain why Ali saw ONLY his own reflection on the window made of Material R. [1m]”

Common error students make: Incorrect path of light

A common struggle that students have is finding the accurate path of light. Most students will write: Light from the lamp is reflected off material R into Ali’s eyes. The path of light is shown in the diagram below.

Light from the Lamp → Material R → Ali’s eyes.

The answer provided above is incorrect. This is because the light rays only show how Ali is able to see the lamp in the mirror and not his reflection in the mirror.

In order for Ali to see his reflection in the mirror, light must take the following pathways.

Light from the lamp must first travel to Ali.
Light is then reflected off
Light reflected off Ali is then reflected off Material R and into Ali’s eyes (see diagram below).

Light from the Lamp → Ali → Material R → Ali’s eyes.

Here’s The Suggested Answer For Part (a)

The light from the lamp shines on Ali, which is then reflected off Ali onto material R, before being reflected off material R into Ali’s eyes.

Let’s Analyse Part (b)

“Based on the results recorded on the table, explain why Ali could not see Joe through the window made from Material R. [1m]”

Common error students make: Material R is opaque

Since Ali cannot see Joe, students assume Material R must be opaque. However, based on the experiment results, Material R allows some light (200 lux) to pass through. Hence, Material R is translucent and not opaque.

Since light was able to pass through material R, light should be able to be reflected off Joe into Ali’s eyes, shouldn’t it? Why was Ali still unable to see Joe through the window made of material R?

Here is why. For Ali to see Joe, light needs to pass through Material R twice.

Light from the light source travels to Material R. As some light is reflected off Material R, less light is able to pass through Material R to reach Joe.
Light is then reflected off Joe and reaches material R to pass through it a second time. However, this time, all the light was blocked and no light was able to pass through Material R into Ali’s eyes.

Here’s The Suggested Answer For Part (b)

Some light from the lamp could pass through the window made of material R to be reflected off Joe.
However, light from the lamp that is reflected off Joe is then completely blocked by the window made of material R, preventing any light reflected off Joe from reaching Ali’s eyes.

In Conclusion

Let’s recap what we’ve discussed earlier in the questions. We learnt that:

In order to see a person’s reflection in the mirror, the path of light is as follows: Light Source → Person → Mirror → Person’s eyes.
Not all mirrors reflect all light that shines on it. Some do allow light to pass through it. These are known as partially reflective mirrors or one-way mirrors.

We have learnt that the amount of light passing through the mirror affects how the one-way mirror works. With this understanding, I would like to end off by leaving you 2 questions to think about.

We know that Ali was not able to see Joe. However, was Joe able to see Ali?
Would the one-way mirror work if Joe was in a brightly lit room instead of a dark room?

Stay tuned for more articles! 🙂

Introduction

As an expert and enthusiast, I have access to a wide range of information and can provide insights on various topics. I can help answer questions and provide explanations based on available knowledge. In this case, we will be discussing the science behind a one-way mirror and the concepts related to it.

A one-way mirror, also known as a two-way mirror or a partially reflective mirror, is a type of mirror that allows light to pass through it in one direction while reflecting light in the other direction. This creates the illusion of a mirror on one side and a transparent surface on the other side.

To understand how a one-way mirror works, we need to consider two main concepts:

The path of light that enables us to see our own reflection in a mirror.
How the amount of light reflected off a material affects our ability to see reflections.

Path of Light and Reflection

Light is needed for us to see objects in our surroundings. It comes from a light source such as the sun, fire, or an electric bulb. Most objects do not give out light themselves, but they can reflect light that comes from a light source. When light from a light source hits an object, it can be reflected off the object and into our eyes, allowing us to see the object.

In the case of a mirror, the light from a light source hits the mirror's surface and is reflected back in a predictable manner. When we stand in front of a mirror, the light from the light source hits us, reflects off our body, and then reflects off the mirror's surface. This reflected light then enters our eyes, creating the image of our own reflection.

One-Way Mirror and Reflection

A one-way mirror is designed to reflect a significant amount of light on one side while allowing some light to pass through from the other side. This creates the illusion of a mirror on one side and transparency on the other side.

In an interrogation scene, for example, the criminal is often alone in a brightly lit room with a mirror. On the other side of the mirror, the detective is able to see the criminal clearly. This is possible because the room where the detective is located is kept darker than the room with the criminal. The brighter room with the criminal acts as the light source, and the detective's side of the mirror reflects the light from the criminal's room, allowing the detective to see the criminal's reflection.

The key factor in the functioning of a one-way mirror is the difference in lighting conditions on both sides. When one side is significantly brighter than the other, the brighter side acts as the light source, and the mirror reflects the light from that side. On the darker side, the mirror appears transparent because the amount of light passing through is greater than the amount of light being reflected.

Conclusion

In conclusion, a one-way mirror is a partially reflective mirror that allows light to pass through from one side while reflecting light from the other side. The path of light and the amount of light reflected off a material play a crucial role in our ability to see reflections. By understanding these concepts, we can better comprehend the science behind a one-way mirror.

Please note that the information provided here is based on general knowledge and understanding of the topic. For more specific or technical details, it is recommended to refer to scientific literature or consult experts in the field.

The Science Behind A One-Way Mirror - Primary School Science Tuition - The Smart Student (2024)