BRAINLIEST! BRAINLIEST! BRAINLIEST! BRAINLIEST!
Please help me out with this!!
You and a frien...
Physics, 25.09.2020 06:01 BraedynM7866
BRAINLIEST! BRAINLIEST! BRAINLIEST! BRAINLIEST!
Please help me out with this!!
You and a friend are on a road trip with different friends traveling from El Paso to
San Antonio but going in different cars in order to fit all your friends. You are able
to travel 250 miles in 2.5 hours while your friend is barely able to get through 200
miles in the same time frame. Which car is going faster? (Response should be all
lower case letters: you or friend)
Answers: 3
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What is the fate of the electrons that interact with a specimen in an electron microscope?
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While goofing off at the ice skating rink, a student takes off her shoes and places each of them on the ice. her friend, a hockey player, then shoots a hockey puck at each shoe. the first puck immediately comes to rest after it collides with the left shoe. the second puck rebounds after it collides with the right shoe. if each hockey puck has the same incoming speed, which shoe has greater speed after the collision? the right shoe. both shoes have the same speed. the left shoe.
Answers: 3
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When measuring volume, why is it important to use the correct tools and units to attain the greatest accuracy? use specific examples from the lab to support your answer. (5 points)
Answers: 1
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Acommon technique in analysis of scientific data is normalization. the purpose of normalizing data is to eliminate irrelevant constants that can obscure the salient features of the data. the goal of this experiment is to test the hypothesis that the flux of light decreases as the square of the distance from the source. in this case, the absolute value of the voltage measured by the photometer is irrelevant; only the relative value conveys useful information. suppose that in part 2.2.2 of the experiment, students obtain a signal value of 162 mv at a distance of 4 cm and a value of 86 mv at a distance of 5.7 cm. normalize the students' data to the value obtained at 4 cm. (divide the signal value by 162.) then calculate the theoretically expected (normalized) value at 5.7 cm.
Answers: 2
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