Answer:
here's the answer
read it and solve yourself
okay
hope it may helps u......
#mmburfrnd
[tex]\underbrace{Answer}[/tex]
To calculate the magnification of the microscope, you can use the formula:
Magnification = Image size / Actual size
In this case:
Image size = 1.5 cm = 0.015 meters (since 1 cm = 0.01 meters)
Actual size (diameter of eosinophil) = 12 μm = 12 x 10^(-6) meters
Now, plug these values into the formula:
Magnification = 0.015 m / (12 x 10^(-6) m) = 1250
So, the magnification of the microscope is 1250x.
♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀
[tex]\purple{\hugeꩇׁׅ݊ꭈׁׅꪱׁׅꪀׁׅᨵׁׅᝯׁꫀׁׅܻꪀׁׅtׁׅ2 } \\ \red{\huge꯱ׁׅ֒ᨵׁׅᥣׁׅ֪υׁׅtׁׅꪱׁׅᨵׁׅꪀׁׅ}[/tex]
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Answers & Comments
Answer:
here's the answer
read it and solve yourself
okay
hope it may helps u......
#mmburfrnd
[tex]\underbrace{Answer}[/tex]
To calculate the magnification of the microscope, you can use the formula:
Magnification = Image size / Actual size
In this case:
Image size = 1.5 cm = 0.015 meters (since 1 cm = 0.01 meters)
Actual size (diameter of eosinophil) = 12 μm = 12 x 10^(-6) meters
Now, plug these values into the formula:
Magnification = 0.015 m / (12 x 10^(-6) m) = 1250
So, the magnification of the microscope is 1250x.
♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀♀
[tex]\purple{\hugeꩇׁׅ݊ꭈׁׅꪱׁׅꪀׁׅᨵׁׅᝯׁꫀׁׅܻꪀׁׅtׁׅ2 } \\ \red{\huge꯱ׁׅ֒ᨵׁׅᥣׁׅ֪υׁׅtׁׅꪱׁׅᨵׁׅꪀׁׅ}[/tex]