The magnifying power of an electron microscope is 500 times greater than that of a compound microscope.
A microscope is a device that enlarges an image of a small object to expose details that the unassisted eye cannot perceive. The optical microscope, which employs visible light focused through lenses, is the most used type of microscope.
We wouldn't be aware of the existence of cells, how plants breathe, or how rocks change through time without them. Optical microscopy, scanning probe microscopy, and electron microscopy are the three basic categories.
Microscopes are a staple of life science study, but improvements in imaging have made it possible for their usage to spread across the majority of scientific and technological fields. They are frequently employed to observe various cell kinds, examine clinical specimens, and scan nanomaterials.
Learn more about microscopes, here:
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Answer:
The cytosolic and mitochondrial pools of CoA are kept separate, and no radioactive CoA from the cytosolic pool enters the mitochondrion.
Explanation:
Answer:
One of the reason the countries wanted colonies due to industrial revolution was because of the natural resources this colonies could provide.
Explanation:
Industrial Revolution was a period in time between the 1700s and 1800s when there was a great turnaround in Industrialization in Great Britain first then it spread around the world. Industries started producing goods on a large scale.
There was a great advancement in Agriculture, Textile manufacturing and Electrical advancements as well.
Due to the Industrial Revolution, the industries in Great Britain start to expand and the economy was growing but there was shortage of raw materials. This made countries such as Great Britain to go in search of colonies because the colonies had an abundance of raw materials in form natural resources such as Cotton, Cocoa, Gold, Timber, Rubber which the industries needed in order to thrive well.
This led to the colonisation of countries like Africa, Asia and India.
true within limits
not true
The answer is true. In Photosynthesis, the temperature continues to increase but with limits. In this process, plants and other organisms convert the light energy from the sun into a chemical energy then released to fuel the organisms’ activities. The rate of carbon assimilation increases as the temperature increases.
Photosynthesis increases with temperature up to a certain limit.
Photosynthesis is the process by which plants convert light energy into chemical energy to produce food. Temperature plays a crucial role in photosynthesis as it affects the enzymes involved in the process. In general, photosynthesis increases with temperature up to a certain limit, beyond which it starts to decline. This is because the enzymes become less efficient at higher temperatures.
It is the biological process by which green plants, algae, and some bacteria convert light energy, primarily from the sun, into chemical energy in the form of glucose and oxygen. This energy conversion occurs in chloroplasts, where chlorophyll pigments capture light and use it to convert carbon dioxide and water into sugars and oxygen, facilitating energy storage and supporting life on Earth.
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