summarize findings. Support statements with references that verify the uncertainty inherent in measurements. Part IVolume delivered from small test tube (ml)Volume delivered from large test tube (mL)Volume delivered from 50 mL beaker (mL)Volume delivered from 100 mL beaker (mL)Volume delivered from 250 mL beaker (mL)Volume delivered from 400 mL beaker (mL)Volume delivered from 125 mL flask (mL)Volume delivered from 250 mL flask (ml)Volume delivered from wash bottle (mL)Volume delivered from 10 mL graduated cylinder (mL)Volume delivered from 50 mL graduated cylinder (mL)Part IIIMake your own table to report the mass of 10 items in your drawer. For each item, also report the uncertainty in the reported mass measurement. It is acceptable to choose multiple items that appear identical.Item from Drawer50ml beakerstirring rodStube400 ml beaker250 ml ef125 ml ef100 ml beaker600 ml beakercrucible/cover6 cylinderMass (g)30.1025.0 3315.0418170.1419117.86092.06260.148185.91738.28890.247Uncertainty (+/-) in Mass Measurement+3+1+1-40+2+6+1.5+19-13+89.022.039.036.036.0400.0125.0250.032.037.040.0

Answered: ass of 10 items in your drawer. For…

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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summarize findings. Support statements with references that verify the uncertainty inherent in measurements.

Part I
Volume delivered from small test tube (ml)
Volume delivered from large test tube (mL)
Volume delivered from 50 mL beaker (mL)
Volume delivered from 100 mL beaker (mL)
Volume delivered from 250 mL beaker (mL)
Volume delivered from 400 mL beaker (mL)
Volume delivered from 125 mL flask (mL)
Volume delivered from 250 mL flask (ml)
Volume delivered from wash bottle (mL)
Volume delivered from 10 mL graduated cylinder (mL)
Volume delivered from 50 mL graduated cylinder (mL)
Part III
Make your own table to report the mass of 10 items in your drawer. For each item, also report the uncertainty in the reported mass measurement. It is acceptable to choose multiple items that appear identical.
Item from Drawer
50ml beaker
stirring rod
Stube
400 ml beaker
250 ml ef
125 ml ef
100 ml beaker
600 ml beaker
crucible/cover
6 cylinder
Mass (g)
30.102
5.0 331
5.0418
170.1419
117.860
92.062
60.148
185.917
38.288
90.247
Uncertainty (+/-) in Mass Measurement
+3
+1
+1
-40
+2
+6
+1.5
+19
-13
+8
9.0
22.0
39.0
36.0
36.0
400.0
125.0
250.0
32.0
37.0
40.0

Expert Solution

Step 1: Uncertainty in measurement

The measurement of every quantity contains a degree of uncertainty irrespective of the tools employed for the accuracy and precision. This uncertainty in measurement occurs majorly due to two reasons. First, when there is a default in the measuring tool. This type of uncertainty is called an instrumental error or a systematic error.

Second, when there occurs an error in measurement due to the inappropriate execution of the measurement experiment. This type of uncertainty is called a random error which is due to the carelessness of the experimenter.

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