NEWTONS SECOND LAW
Introduction
-Did you title your lab report?
-Did you state the...
Physics, 12.02.2020 04:56 taylordalton93
NEWTONS SECOND LAW
Introduction
-Did you title your lab report?
-Did you state the purpose of the experiment?
-Did you state the question you posed before the experiment?
-Did you restate the hypothesis you formulated before the experiment?
-Did you list all the variables and label the independent and dependent variables? Did you indicate any controlled variables?
Materials and procedure
-Did you make a list of materials? Did you include quantities and SI units?
-Did you present the steps of the procedure as a number list?
-Did you note any changes to the original procedure?
-Did you identify your experimental and control groups?
Data collection and organization
-Did you organize all data in a clearly labeled table and/or graph?
-Did you check that your data is accurate and complete?
-Did you title any tables and graphs? Did you label rows, columns, axes, etc., and include units?
Analysis and conclusion
-Did you interpret your data and graphs in the analysis rather than just restate your findings?
-Did you determine whether your data supported or refuted the hypothesis?
-Did you describes possible sources of errors?
-Did you suggest ways to improve or further your lab investigation?
Overall
-Did you make sure that your writing is precise, unbiased, and concise?
-Did you meet your teachers content and format expectations?
Answers: 3
Physics, 22.06.2019 21:10, palomaresmitchelle
Select the best definition for wavelength. the height of an oscillating electromagnetic wave the rate at which electromagnetic waves oscillate. the distance between two crests of an electromagnetic wave. the oscillations of electric and magnetic fields select the best definition for frequency. the oscillations of electric and magnetic fields. the height of an oscillating electromagnetic wave. the distance between two crests of an electromagnetic wave. the rate at which electromagnetic waves oscillate
Answers: 1
Physics, 23.06.2019 01:00, djs1671
To practice problem-solving strategy 10.1 for energy conservation problems. a sled is being held at rest on a slope that makes an angle θ with the horizontal. after the sled is released, it slides a distance d1 down the slope and then covers the distance d2 along the horizontal terrain before stopping. find the coefficient of kinetic friction μk between the sled and the ground, assuming that it is constant throughout the trip.
Answers: 1
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