Want this question answered?
The complex microscope uses lenses called convex lenses. Now convex lenses converge light to meet at one focal point. They create an =()X like figure where = is straight beams of light () is the convex and X is the converged light. In short, it's because a microscope has a mirror in it. and when you look into it you see the reflection of the item on the slide. On the microscope it is right side up but when you look at it normally it would be upside-down.
The complex microscope uses lenses called convex lenses. Now convex lenses converge light to meet at one focal point. They create an =()X like figure where = is straight beams of light () is the convex and X is the converged light. In short, it's because a microscope has a mirror in it. and when you look into it you see the reflection of the item on the slide. On the microscope it is right side up but when you look at it normally it would be upside-down.
By knowing the measurement of, and you use it to calibrate the ocluar lens of a microscope
Nymph goes through incomplete metamorphosis while the larva goes through complete metamorphasis.
Water is transported in Xylem vessels and sugar is transported in the phloem
It appears so much bigger you probably won't recognize it as an "a".
The complex microscope uses lenses called convex lenses. Now convex lenses converge light to meet at one focal point. They create an =()X like figure where = is straight beams of light () is the convex and X is the converged light. In short, it's because a microscope has a mirror in it. and when you look into it you see the reflection of the item on the slide. On the microscope it is right side up but when you look at it normally it would be upside-down.
The complex microscope uses lenses called convex lenses. Now convex lenses converge light to meet at one focal point. They create an =()X like figure where = is straight beams of light () is the convex and X is the converged light. In short, it's because a microscope has a mirror in it. and when you look into it you see the reflection of the item on the slide. On the microscope it is right side up but when you look at it normally it would be upside-down.
types of microscope
by s microscope
a light microscope uses a lamp underr the microscope and an electron microscope sends a beam of electrons down to act like a magnet to suppl light to the object.
A telescope lets you see things far away and a microscope lets you see see things that are really small
i need the same answer...-.-
The definition for the word parallax is "the effect whereby the position or direction of an object appears to differ when viewed from different positions, e.g., through the viewfinder and the lens of a camera."
Ink under the microscope appears different from the normal view. It completely looks different. You can see the details clearly. The ink looks less solid. The view is 2D but when you look it in the microscope, the picture will looks like a 3D image. The ink will be messed up and it won't look exact the same. When look the ink normally you will see no gapes and no lines but when you zoom it to 40x on the microscope it will have white lines and gasps which aren't visible to see if you had naked ey
A compound microscope consists of several lenses operating together, whereas a simple microscope is one lens, like a magnifying glass. A compound microscope gives higher magnification and also better resolution than a simple microscope.
By knowing the measurement of, and you use it to calibrate the ocluar lens of a microscope