Answer:
Mean: 14.8888888889
Median: 16
Mode: 7,16
Range: 18
Explanation:
7,7,11,12,16,16,18,22,25
Mean: (7+7+11+12+16+16+18+22+25)/9
Mode is Bimodal since there are two of them
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The frame rate of a virtual reality (VR) headset indicates: the number of images displayed per second.
<h3>What is Virtual Reality (VR) headset?</h3>
A virtual reality (VR) headset refers to a head-mounted device which consist of two LCD displays (one per eye) that provides the wearer with a view of virtual physical environments (realities) and human-machine interactions through the use of various computer technologies.
<h3>What is frame rate?</h3>
Frame rate can be defined as a a measurement of the speed at which successive images are displayed per unit of time (second).
In this context, the frame rate of a virtual reality (VR) headset indicates the number of images that are displayed per second such as <u>24 fps</u>.
Read more on Virtual Reality here: brainly.com/question/26479902
Considering the data in the question, the focal length of the objective lens that will give a total magnification of 200x is <u>0.8cm focal length.</u>
The whole question is:
You are using a microscope with a 10x eyepiece. What focal length of the objective lens will give a total magnification of 200x? Assume a length L = 160mm.
<h3>How was the answer derived?</h3>
Given that total magnification is 200
And the Assume length is 160
Since we used a microscope with a 10x eyepiece, the magnification would be divided by 10.
=> 200 ÷ 10 = 20.
Also, the focal length is measured in centimeters or meters; we would change the millimeters of focal length to centimeters. Therefore, we have 160 ÷ 10 = 16
The formula for the focal length of the objective lens = assumed length ÷ total magnification.
=> 16 ÷ 20 = 0.8cm.
Hence, in this case, it is concluded that the correct answer is "0.8cm."
Learn more about the focal length of the objective lens here: brainly.com/question/15744335
