Why the mainstream theory of greenhouse gases ignores the significant role of Earth’s surface mass in global warming

Global warming and climate change have been a topic of concern in recent years. Scientists have studied the Earth’s climate and found that it is changing at an alarming rate. The main cause of this change is believed to be the increase in the concentration of greenhouse gases in the atmosphere. These gases, including carbon dioxide, methane, and nitrous oxide, trap heat in the atmosphere and cause the Earth’s temperature to rise. However, the mainstream greenhouse gas theory of global warming ignores surface mass. In this article we will explore why this is the case.

What is the mainstream greenhouse theory?

The mainstream greenhouse gas theory explains that the Earth’s temperature is determined by a balance between the energy it receives from the Sun and the energy it radiates back into space. Greenhouse gases in the atmosphere trap some of this energy and prevent it from escaping, causing the Earth’s temperature to rise. This theory is widely accepted by the scientific community and forms the basis of climate change research and policy.

Why does the mainstream theory ignore the mass of the Earth’s surface?

Mainstream greenhouse gas theory assumes that the Earth’s surface has no effect on the Earth’s temperature. This is because the Earth’s surface has a large thermal inertia, which means that it takes a long time to heat up or cool down. Therefore, changes in the Earth’s surface temperature are not considered to be a significant factor in global warming.

However, recent research has shown that the mass of the Earth’s surface plays an important role in the Earth’s temperature. The Earth’s surface is made up of a variety of materials, including water, rock, and soil, each of which has a different thermal conductivity and heat capacity. As a result, changes in the mass of the surface can affect the Earth’s temperature by changing the amount of heat that is stored or released.

For example, the melting of ice caps and glaciers reduces the mass of the Earth’s surface, which can lead to an increase in the Earth’s temperature. This is because it takes less heat to raise the temperature of a lighter surface than a heavier one. Similarly, the accumulation of snow can increase the mass of the Earth’s surface, which can cause a decrease in the Earth’s temperature by increasing the amount of heat required to raise its temperature.

What are the consequences of ignoring surface mass?

The mainstream greenhouse gas theory of global warming ignores surface mass, which can lead to inaccurate predictions of the Earth’s temperature. For example, if the theory assumes that the Earth’s surface has no effect on the Earth’s temperature, it may predict that the Earth’s temperature will not change significantly as the ice caps and glaciers melt. However, as we have seen, melting ice caps and glaciers can cause a decrease in the mass of the Earth’s surface, which can lead to an increase in the Earth’s temperature.

Inaccurate predictions of the Earth’s temperature can have serious consequences for climate change policy. For example, if policymakers rely on inaccurate predictions, they may not take action to reduce greenhouse gas emissions, which could exacerbate the effects of global warming.

Conclusion

The mainstream greenhouse gas theory of global warming ignores the mass of the Earth’s surface, which can lead to inaccurate predictions of the Earth’s temperature. The Earth’s surface plays an important role in the Earth’s temperature, and changes in its mass can affect the amount of heat that is stored or released. Therefore, it is important for climate change research and policy to take the mass of the Earth’s surface into account when predicting the effects of global warming.

FAQs

1. What is the mainstream greenhouse gas theory for global warming?

The mainstream greenhouse gas theory explains that the Earth’s temperature is determined by a balance between the energy it receives from the sun and the energy it radiates back into space. Greenhouse gases in the atmosphere trap some of this energy and prevent it from escaping, causing the Earth’s temperature to rise.

2. Why is the mass of the Earth’s surface important in global warming?

The mass of the Earth’s surface is important in global warming because it can affect the amount of heat that is stored or released. The Earth’s surface is made up of a variety of materials, each of which has a different thermal conductivity and heat capacity. Changes in the mass of the surface can therefore affect the Earth’s temperature by altering the amount of heat that is stored or released.

3. Why does the mainstream theory ignore the mass of the surface?

The mainstream greenhouse gas theory assumes that the Earth’s surface has no effect on the Earth’s temperature. This is because the Earth’s surface has a large thermal inertia, which means that it takes a long time to heat up or cool down. Therefore, changes in the Earth’s surface temperature are not considered to be a significant factor in global warming.

4. What are the implications of ignoring the mass of the surface?

Ignoring the mass of the surface can lead to inaccurate predictions of the Earth’s temperature. This can have serious consequences for climate change policy. For example, if policy makers rely on inaccurate predictions, they may not take measures to reduce greenhouse gas emissions, which can exacerbate the effects of global warming.

5. How can changes in the mass of the surface affect the Earth’s temperature?

Changes in the mass of the surface can affect the Earth’s temperature by altering the amount of heat that is stored or released. For example, the melting of ice caps and glaciers causes a decrease in the mass of the Earth’s surface, which can lead to an increase in the Earth’s temperature. Similarly, the accumulation of snow can increase the mass of the Earth’s surface, which can cause a decrease in the Earth’s temperature by increasing the amount of heat required to raise its temperature.

6. What are the different materials that make up the Earth’s surface?

The Earth’s surface is made up of a variety of materials, including water, rock, soil, ice, and vegetation. Each of these materials has a different thermal conductivity and heat capacity, which can affect the Earth’s temperature.

7. How can taking into account the mass of the surface improve climate change research and policy?

Taking into account the mass of the surface can improve climate change research and policy by providing more accurate predictions of the Earth’s temperature. This can help policy makers take measures to reduce greenhouse gas emissions and mitigate the effects of global warming.