Please help me with part B and C they are both wrong.
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Please help me with part B and C they are both wrong.
The objective lens and...
The objective lens and the eyepiece of a microscope are 16.5 cm apart. The objective lens...
The objective lens and the eyepiece of a microscope are 16.5 cm apart. The objective lens has a magnification of 61× and the eyepiece has a magnification of 10 ×. Assume that the image of the objective lies very close to the focal point of the eyepiece. A. Calculate the overall magnification of the microscope. B.Calculate the focal length of the eyepiece. C. Calculate the focal length of the objective.
The objective lens and the eyepiece of a microscope are 16.5 cm apart. The objective lens...
The objective lens and the eyepiece of a microscope are 16.5 cm apart. The objective lens has a magnification of 61 × and the eyepiece has a magnification of 11 ×. Assume that the image of the objective lies very close to the focal point of the eyepiece. A) Calculate the overall magnification of the microscope. B) Calculate the focal length of the eyepiece. C) Calculate the focal length of the objective.
Microscope - New A microscope has a 13.0 x eyepiece and a 64.0 x objective lens...
Microscope - New A microscope has a 13.0 x eyepiece and a 64.0 x objective lens 22.0 cm apart. It has been adjusted for a RELAXED normal eye. Part A Calculate the total magnification. Part B Calculate the focal length for the EYEPIECE. Part C Calculate the image distance for the OBJECTIVE.
The last expert gave me the wrong answers, please don't steer me wrong. All answers to...
The last expert gave me the wrong answers, please don't steer me wrong. All answers to 4 decimal places please. A compound microscope consists of a 3× eyepiece & a 34× objective 21 cm apart. Assuming the final image is in focus with the eye relaxed, determine the following: Microscope magnification = Eyepiece focal length = Objective focal length = Distance of object from objective =
1) What is the total magnification of a refracting telescope having an objective and eyepiece lens...
1) What is the total magnification of a refracting telescope having an objective and eyepiece lens of focal lengths 30.0 cm and 0.40 cm respectively? 2) If the focal lengths of both the objective lens and the eyepiece were doubled in a compound microscope, what would be the change in the magnification? 3) If you wish to look at Mars or any planet with a telescope, what sort of objective lens and eyepiece lens should you use? A. Objective long...
Consider a microscope that consists of an objective lens and an eyepiece separated by 19.7 cm....
Consider a microscope that consists of an objective lens and an eyepiece separated by 19.7 cm. The focal length of the objective lens is 0.20 cm, and the focal length of the eyepiece lens is 2.5 cm. Assume the final image is produced at a distance of 25 cm. (a) Find the magnification of the microscope. You may assume that the focal lengths are far smaller than the size of the microscope. (b) Draw a ray diagram for this microscope.
PLEASE SHOW YOUR WORK 7. You have 2 convex lens (fi = 20 cm and f...
PLEASE SHOW YOUR WORK
7. You have 2 convex lens (fi = 20 cm and f 6 cm) and you want to build a microscope a) Which lens should be the objective? Which should be the eyepiece? o Objective has a focal length of 6 cm, so the eyepiece must have a focal length of 20 cm b) How far apart should the 2 lenses be to achieve an angular magnification of 3.125? o Use magnification for a microscope equation...
A compound microscope has an objective lens with a focal length of 0.40 cm and an...
A compound microscope has an objective lens with a focal length of 0.40 cm and an ocular (eyepiece) with a focal length of 4.25 cm. The separation between the lenses is 20 cm. (a) Find the total magnification. (b) What focal length of the objective should be used to double the total magnification, if the focal length of the eyepiece and its separation from the objective remain the same?
an object is 1.2 cm form the objective lens of a simple compound microscope that is...
an object is 1.2 cm form the objective lens of a simple compound microscope that is adjusted for a relaxed normal eye. the objective and eyepiece are 18 cm apart and the eyepiece has a focal length of 4.8 cm. what is the focal length of the objective lens?
A microscope has an objective lens with a focal length of 10.0 mm . A small...
A microscope has an objective lens with a focal length of 10.0 mm . A small object is placed 0.90 mm beyond the focal point of the objective lens. If an eyepiece with a focal length of 2.5 cm is used, with a final image at infinity, what will be the overall angular magnification of the object? Express your answer using two significant figures.
Microscope - New A microscope has a 13.0 x eyepiece and a 64.0 x objective lens 22.0 cm apart. It has been adjusted for a RELAXED normal eye. Part A Calculate the total magnification. Part B Calculate the focal length for the EYEPIECE. Part C Calculate the image distance for the OBJECTIVE.
Consider a microscope that consists of an objective lens and an eyepiece separated by 19.7 cm. The focal length of the objective lens is 0.20 cm, and the focal length of the eyepiece lens is 2.5 cm. Assume the final image is produced at a distance of 25 cm. (a) Find the magnification of the microscope. You may assume that the focal lengths are far smaller than the size of the microscope. (b) Draw a ray diagram for this microscope.
PLEASE SHOW YOUR WORK
7. You have 2 convex lens (fi = 20 cm and f 6 cm) and you want to build a microscope a) Which lens should be the objective? Which should be the eyepiece? o Objective has a focal length of 6 cm, so the eyepiece must have a focal length of 20 cm b) How far apart should the 2 lenses be to achieve an angular magnification of 3.125? o Use magnification for a microscope equation...
A compound microscope has an objective lens with a focal length of 0.40 cm and an ocular (eyepiece) with a focal length of 4.25 cm. The separation between the lenses is 20 cm. (a) Find the total magnification. (b) What focal length of the objective should be used to double the total magnification, if the focal length of the eyepiece and its separation from the objective remain the same?
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