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What else can I help you with?
When you moved the slides in different directions what changes in the image of the specimen under focus did you notice?
You should notice that the image in the microscope moves in the opposite direction to the movement of the slide. For example, if the specimen slide is moved top to bottom, the image seen moves from bottom to top. This can be very confusing.
Why would you always use the low-power objective lens to locate objects mounted on the slide first even if you want to observe them with the high power objective lens?
because it allows you to find the part of the slide you want to see, then you can zoom in by changing focus to see the frame in greater detail. if you don't start in low power it is extremely difficult to move around the slide
How would you move a microscope slides on the stage in order to bring a specimen in the upper righ-hand?
You would move the slide to the left. Remember, the image you see is reversed and flipped. That means that if your organism is moving from right to left when you look under the microscope, that the actual organism on the slide is moving from left to right. Going off of that logic, if the REAL organism on the REAL slide is moving from left to right, than you would have to move the actual slide to the left in order to place right hand side of the slide (where the organism just moved) back into your view. This would reflect in what you see under the microscope as well since you put the real organism back into view.as a handy rule of thumb, when using a compound light microscope, pull the slide in the direction that the organism is moving out of view in to keep them in sight.
Which of the objectives comes closest to a specimen and is most likely to break a slide if proper precautions are not taken?
The oil immersion objective comes closest to the specimen and is most likely to break a slide if proper precautions are not taken. Oil immersion objectives require the addition of immersion oil between the objective lens and the slide to improve resolution, and without the correct amount of oil or if the slide is not handled carefully, it can lead to damage or breakage of the slide.
Why should you never turn the coarse objective knob downward?
Turning the coarse objective knob downward can cause the objective lens to come in contact with the slide, potentially damaging both the lens and the slide. It is best to always start with the coarse knob in the upward position to prevent any accidental collisions.
When moving from a lower objective lens to a higher objective lens why does is the image lost?
Because during movement of lens there is no slide below objective .
What happens to the microscope image when you move the microscope slide towards you?
The image will move upwards in the field of view when the slide is moved towards you. This is because the slide is physically closer to the objective lens, resulting in the object on the slide appearing to move in the opposite direction.
What happens if you move coarse adjustment knob away from you?
If you move the coarse adjustment knob away from you, the objective lens or stage will move downwards, increasing the distance between the specimen slide and the objective lens. This will result in the focus point moving further away from the specimen, leading to a blurry image.
What happens to the image when you move the slide to your right in a microscope?
When you move the slide to the right in a microscope, the image appears to move to the left in the field of view. This is because the slide is moving in the opposite direction to the movement of the stage. It gives the impression that the image is shifting in the opposite direction.
When moving the slide left on a microscope which direction does it appear it is moving in?
When moving the slide left on a microscope, it appears as if the slide is moving to the right. This is because the direction you move the slide manipulates its position relative to the stationary objective lens, creating the illusion of movement in the opposite direction.
What happens to the image when you move the slide to the left?
When you move the slide to the left, the image shifts to the right. This happens because the slide movement is in the opposite direction of the image movement, creating an apparent motion in the opposite direction.
When you move the slide to the right where does the image move?
Moving the slide to the right in a microscope stage will cause the image to move to the left in the field of view.
Why can't the objective lenses touch the slide?
The objective lenses should not touch the slide because doing so can lead to scratches on the lens or slide, affecting the quality of the image. Additionally, touching the slide with the objective lens can potentially damage the specimen being viewed. Maintaining a small distance between the lens and the slide ensures proper focus and clarity in the image.
Which part of the microscope is used to bring the image of an object on the slide into focus when under the high power objective lens?
The fine adjustment knob is used to bring the image of an object on the slide into focus when under the high power objective lens. This knob allows for precise focusing by making small adjustments to the distance between the objective lens and the specimen on the slide.
Why should you always move the objective lens away from the slide when you're focusing a microscope?
Moving the objective lens away from the slide prevents the lens from colliding with the slide, potentially damaging both. It also helps to prevent smashing any cover slip present on the slide, which can interfere with the quality of the image being viewed.
When moving a slide to the right in what direction does the image in the ocular move?
When moving a slide to the right, the image in the ocular will appear to move to the left. This is due to the adjustments made to keep the specimen in the center of the field of view as the slide is shifted.
What happens to the image when you moving the slide?
When you move the slide on a microscope, the image shifts in the opposite direction to the movement of the slide due to the optics of the microscope. This movement is necessary to keep the object in the field of view as you navigate across the specimen. It allows you to selectively observe different regions of the sample without losing sight of the area you are examining.
