Light is reflected off of the object that you are looking at at different angles. this light is then bend when it hits the glass lens. the bending causes the magnification. there are also things to consider, like focus and the image turning upside down. Focusing requires the light to intersect when leaving the lens. the image going upside down happens when you go past the point where the image is focused
Yes it works silly, your question is HOW does it work.
HOW it works is by putting different pieces of glass that has been morphed by fire to increase the effect in the center. Then they put Multiple layers of these glasses to form a magnifying glass.
Think of a house of mirrors. When you look into one mirror your body seems HUGE, while in another its quite skinny
_______ describes how closely individual measurements agree with each other.
Need a Hint?
A)AccuracyB)QualityC)PrecisionD)Rounding
The ability to make things larger than they appear.
Magnification refers to the process of visually enhancing an object. Its importance in microscopy is to increase the clarity of specimens that are too small to be seen by the naked eye.
the act of expanding something in apparent size
i suggest typing "definition (magnification, or whichever word you need)" into Google, or dictionary.com for definitions.
The power of a light microscope can be determined by multiplying the magnification power of the eyepiece by the magnification power of the current lens. Ex. (10x) by (40x) results in in a 400x magnification.
the view will be brighter under low power magnification...
Low power magnification is considered to be a hundred times. This is the result of multiplying the objective and optical lenses which have the power of 10.
The oil immersion lens or objective has power 90X-100X and an eyepiece lens generally in light microscope comes with 10X so total magnification of oil immersion lens is 100X10 = 1,000
Multiply the magnification or power of the objective lens times the power of the eyepiece and it equals the total magnification
the magnification power of a microscope
low-power magnificatin = (10x)(4x) = 40x high-power magnification = (10x)(40x) = 400x It depends on what magnification you are looking for; high-power magnification OR low-power magnification.
The power of a light microscope can be determined by multiplying the magnification power of the eyepiece by the magnification power of the current lens. Ex. (10x) by (40x) results in in a 400x magnification.
Magnification = Size drawn / Actual size
the view will be brighter under low power magnification...
Microscopes vary in power. You can determine total magnification by the eyepiece and the lens.
The lower power objective is the lens on the microscope that gives you the lowest magnification. The exact magnification is 40x
Low power magnification is considered to be a hundred times. This is the result of multiplying the objective and optical lenses which have the power of 10.
If magnification increases ONLY, then resolving power does not increase. However, if the magnification increased while staying in focus (upgrading resolution and magnification with objective lense), shorter wavelengths are needed to stay in focus with increased magnification to yield the same high resolution as with previous objective lense, so this case, resolving power does increase.
mass density
The magnification power of modern microscopes is amazing.
mas density