am having trouble getting this question done and would really appriciate any kind of help possible, pls explain and check its correct, thank you sm !! I really need help with the given question Question: An insect 1.1 mmmm tall is placed 1.0 mmmm beyond the focal point of the objective lens of a compound microscope. The objective lens has a focal length of 12 mmmm, the eyepiece has a focal length of 28 mmmm. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of A simple magnifier.\ Part A. What is the angular magnification of the eyepiece? Part B. Using your results from (magnification of the objective image = -12) and E, calculate the overall magnification of the microscope. Part C.

am having trouble getting this question done and would really appriciate any kind of help possible, pls explain and check its correct, thank you sm !! I really need help with the given question Question: An insect 1.1 mmmm tall is placed 1.0 mmmm beyond the focal point of the objective lens of a compound microscope. The objective lens has a focal length of 12 mmmm, the eyepiece has a focal length of 28 mmmm. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of A simple magnifier.\ Part A. What is the angular magnification of the eyepiece? Part B. Using your results from (magnification of the objective image = -12) and E, calculate the overall magnification of the microscope. Part C.

Related questions

Q: What is the object distance in centimeter for a person whose eyes have a power of 51.76 diopter?…

A: Power of lens P = 51.76 diopter lens to retina distance v = 0.02 m we have to find out object to…

Q: Don't use chat gpt plz

A: Step 1:Given: The focal length of the eye lens for a distant object: f1=41.5mmUnknown:The change in…

Q: Calculate Combined Power Example 119. A simple microscope .is a combination of two lenses, in…

Q: The object-lens distance for a certain converging lens is 400 mm. The image is three times the size…

A: The distance of the object from the lens is 400 mm. The size of the image is three times that of the…

Q: What is the object distance in meter for a person whose eyes have a power of 52.78 diopter?…

A: The focal length of the lenses and mirrors gave an idea about how strongly the lenses and mirrors…

Q: Buttercup is using a compound microscope with an objective lens focal lengrh of 6.6mm and a tube…

Q: 2f 2f Focal Length : 27.5 cm focus Object Distance : 80 cm Object Height : 17.6 cm height Image…

A: Lens formula for Convex lens is given by, 1/f = 1/v + 1/u f = uv/(u+v) where, f = focal length u =…

Q: What is the object distance in centimeter for a person whose eyes have a power of 50.63 diopter?…

Q: An object has a height of 0.054 m and is held 0.240 m in front of a converging lens with a focal…

A: Magnification of lens M = ratio of image distance and object distance Or Ration of image height and…

Q: Don't use chat gpt

A: 1. The equation for thin lenses is: 1 / f = 1 / p + 1 / qwhere: f is the focal length, p is…

Q: solve for answers and explain each

A: Here is a detailed approach to solving the question:**Approach to solving the question:**1. Identify…

Q: Needs Complete solution with 100 % accuracy. Don't use chat gpt or ai i definitely upvote you.

A: First, let's find the position of the image formed by lens 1.Using the lens formula,…

Q: An object 3.75 em tall stands 20.0 cm in front of a diverging lens of focal length magnitude 15,0…

Q: 1. A microscope has a 31.0x eyepiece and a 66.0x objective lens 18.7 cm apart. For the relaxed eye…

A: The magnifying power of the eyepiece is me=31 The magnifying power of the objective lens is mo=66…

Q: A Concave planer lens has a first Surface with a radivs = 4ocm, dens thickness = 6mm ds in air and…

Q: = A compound microscope is made from an objective lens of focal length fo = 4 mm, and an eyepiece of…

A: (i) Required distance of the objective lens above the object.For the objective lens:Focal length, fo…

Q: 5. Yang can focus on objects 160cm away with a relaxed eye. With full accommodation, she can focus…

Q: A microscope has a 14.0x eyepiece and a 60.0x objective lens that are 20.0 cm apart. Calculate a)…

Q: erging lens has a rocal ler (a) 12.0 cm 9 = 12 M= Select all that apply to part (a). real virtual…

A: part a For a converging lens, the relationship between the object distance (u), image distance…

Q: A microscope has a 14.0x eyepiece and a 60.0x objective lens that are 20.0 cm apart. Calculate a)…

Q: S. A nearsighted man uses his ideally prescribed eyeglasses that have a refractive power of -2.50…

A: Given: The power of prescribed eyesight is P = -2.5 D. Distance between the eye and lens = 2.7 cm.

Q: Don't use chat gpt It Chatgpt means downvote

A: Step 1:Given:The height of the object: h1=2.1cmThe object distance from the first lens…

Q: 21 A nearsighted person might correct his vision by wearing diverging thin lenses with a focal…

A: here the concave lens is of focal length, f=-45 cm The object is held at a distance 4.5 m from the…

Q: People who do very detailed work close up, such as jewelers, often can see objects clearly at a much…

A: "Since you have asked multiple question, we will solve the first question for you. If you want any…

Q: What does a diverging lens do for a near-sighted eye to see distant objects? a) The lens increases…

Q: In a compound microscope, the focal lengths of the objective and eyepiece are f₁ = .5 cm and f2 = 2…

A: Given, f1=0.5cmf2=2cm

Q: You desire to observe details of the Statue of Freedom, the sculpture by Thomas Crawford that is the…

Q: A nearsighted woman can't see objects clearly beyond 41.7 cm (her far point). If she has no…

Q: A biology student uses a simple magnifier to examine the structural features of an insect's wing.…

A: Dear student as you have asked multiple questions, we will solve only the first question(with all…

Q: erging 2f 2f Focal Length : 27.5 cm focus Object Distance : 80 cm H Object Height : 17.6 cm height…

Q: Type Converging Lens Shape object height (h,.) focal length (f) Convex 17.6 cm 27.5 cm p/f UNITS!

A: Since you've asked multiple sub-parts in a question so as per strict instructions given to us, we…

Q: The accommodation limits for a nearsighted person's eyes are 16.0 cm and 82.0 cm. When he wears his…

A: Object distance u = −∞ Image distance v=−82.0 cm=−0.82 m

Q: A man can see no farther than 56.8 cm without corrective eyeglasses. (a) Is the man nearsighted or…

Q: You wish to purchase a telescope that is easy to transport from one location to another. You finally…

A: We know The formula Angular magnification = Focal length of the Objective / Focal length of the…

Q: i) (ii) H

A: 1/f = 1/v-1/u

Q: Compute the focal length of the meniscus thin lens depicted below, if it is made of glass (nglass=…

Q: Required information You plan to project an inverted image 29.0 cm to the right of an object. You…

A: Image formation by first diverging lens:Sign convention: light coming from right to the lens is…

Q: A Concave planer lens has a first Surface with a radivs = 4ocm, dens thickness = 6mm ds in air and…

Q: Explain what causes farsightedness. What type of contact lenses is required to correct this…

A: Farsightedness also called hyperopia is a person's inability to see objects close by but can see…

Question

I am having trouble getting this question done and would really appriciate any kind of help possible, pls explain and check its correct, thank you sm !! I really need help with the given question

Question: An insect 1.1 mmmm tall is placed 1.0 mmmm beyond the focal point of the objective lens of a compound microscope. The objective lens has a focal length of 12 mmmm, the eyepiece has a focal length of 28 mmmm.

For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of A simple magnifier.\

Part A.

What is the angular magnification of the eyepiece?

Part B.

Using your results from (magnification of the objective image = -12) and E, calculate the overall magnification of the microscope.

Part C.

Using the equation M=(25cm)s′1f1f2�=(25cm)�1′�1�2, calculate the overall magnification of the microscope.

(check the pics for any clarification if needed)