Gary Horner Solutions for Chapter: Movement, Exercise 10: Experiment

Experiment

What is the percentage of oxygen in atmospheric air?

Safety

• Wear gloves as steel wool can result in steel splinters entering the skin.

• Wear safety glasses.

Materials

• Steel wool

• $400 {\mathrm{cm}}^3$beaker

• $50 {\mathrm{cm}}^3$measuring cylinder

• Distilled water

• Retort stand and clamp

• Protective gloves

Method 
1. Wedge a small, loosely packed ball of dampened steel wool into the bottom of a measuring cylinder. Ensure that it remains in place when the cylinder is inverted.

2. Record the appearance of the steel wool. 

3. Place approximately $200 {\mathrm{cm}}^3$ of distilled water into the beaker.

4. Invert the measuring cylinder and stand it in the beaker.

5. Secure the measuring cylinder using a retort stand and clamp.

6. Record the height of the water inside the measuring cylinder using the graduations on the cylinder.

7. Leave the experiment to sit for at least one week, then measure the height of the water in the measuring cylinder again and record the appearance of the steel wool. 

Describe the changes you observed in the steel wool. 

Experiment

What is the percentage of oxygen in atmospheric air?

Safety

• Wear gloves as steel wool can result in steel splinters entering the skin.

• Wear safety glasses.

Materials

• Steel wool

• $400 {\mathrm{cm}}^3$beaker

• $50 {\mathrm{cm}}^3$measuring cylinder

• Distilled water

• Retort stand and clamp

• Protective gloves

Method 
1. Wedge a small, loosely packed ball of dampened steel wool into the bottom of a measuring cylinder. Ensure that it remains in place when the cylinder is inverted.

2. Record the appearance of the steel wool. 

3. Place approximately $200 {\mathrm{cm}}^3$ of distilled water into the beaker.

4. Invert the measuring cylinder and stand it in the beaker.

5. Secure the measuring cylinder using a retort stand and clamp.

6. Record the height of the water inside the measuring cylinder using the graduations on the cylinder.

7. Leave the experiment to sit for at least one week, then measure the height of the water in the measuring cylinder again and record the appearance of the steel wool. 

Calculate the percentage change in the amount of air in the measuring cylinder. 

Experiment

What is the percentage of oxygen in atmospheric air?

Safety

• Wear gloves as steel wool can result in steel splinters entering the skin.

• Wear safety glasses.

Materials

• Steel wool

• $400 {\mathrm{cm}}^3$beaker

• $50 {\mathrm{cm}}^3$measuring cylinder

• Distilled water

• Retort stand and clamp

• Protective gloves

Method 
1. Wedge a small, loosely packed ball of dampened steel wool into the bottom of a measuring cylinder. Ensure that it remains in place when the cylinder is inverted.

2. Record the appearance of the steel wool. 

3. Place approximately $200 {\mathrm{cm}}^3$ of distilled water into the beaker.

4. Invert the measuring cylinder and stand it in the beaker.

5. Secure the measuring cylinder using a retort stand and clamp.

6. Record the height of the water inside the measuring cylinder using the graduations on the cylinder.

7. Leave the experiment to sit for at least one week, then measure the height of the water in the measuring cylinder again and record the appearance of the steel wool. 

Explain how the percentage change in the level of air in the measuring cylinder compares with the percentage of oxygen in atmospheric air. 

Experiment

What is the percentage of oxygen in atmospheric air?

Safety

• Wear gloves as steel wool can result in steel splinters entering the skin.

• Wear safety glasses.

Materials

• Steel wool

• $400 {\mathrm{cm}}^3$beaker

• $50 {\mathrm{cm}}^3$measuring cylinder

• Distilled water

• Retort stand and clamp

• Protective gloves

Method 
1. Wedge a small, loosely packed ball of dampened steel wool into the bottom of a measuring cylinder. Ensure that it remains in place when the cylinder is inverted.

2. Record the appearance of the steel wool. 

3. Place approximately $200 {\mathrm{cm}}^3$ of distilled water into the beaker.

4. Invert the measuring cylinder and stand it in the beaker.

5. Secure the measuring cylinder using a retort stand and clamp.

6. Record the height of the water inside the measuring cylinder using the graduations on the cylinder.

7. Leave the experiment to sit for at least one week, then measure the height of the water in the measuring cylinder again and record the appearance of the steel wool. 

Write a balanced chemical equation to describe the reaction that has taken place between the element iron and oxygen. 

Experiment

What is the percentage of oxygen in atmospheric air?

Safety

• Wear gloves as steel wool can result in steel splinters entering the skin.

• Wear safety glasses.

Materials

• Steel wool

• $400 {\mathrm{cm}}^3$beaker

• $50 {\mathrm{cm}}^3$measuring cylinder

• Distilled water

• Retort stand and clamp

• Protective gloves

Method 
1. Wedge a small, loosely packed ball of dampened steel wool into the bottom of a measuring cylinder. Ensure that it remains in place when the cylinder is inverted.

2. Record the appearance of the steel wool. 

3. Place approximately $200 {\mathrm{cm}}^3$ of distilled water into the beaker.

4. Invert the measuring cylinder and stand it in the beaker.

5. Secure the measuring cylinder using a retort stand and clamp.

6. Record the height of the water inside the measuring cylinder using the graduations on the cylinder.

7. Leave the experiment to sit for at least one week, then measure the height of the water in the measuring cylinder again and record the appearance of the steel wool. 

Identify the type of reaction that iron has undergone.