University Physics (Mechanics) Lab reports (Newton's 2nd Law) using a virtual physics labs (KET...

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University Physics (Mechanics) Lab reports (Newton's 2nd Law) using a virtual physics labs (KET Simulation) as guided in the attached assignment instructions files. Below are detailed log in information for the KET Simulation for expert's access and installation link;

https://virtualphysicslabs.ket.org/my-account/view-order/31303/

Log in username: olowoyos

Log in password: D@rksail0rd

Go to order# XXXXXXXXXXFirst Semester Bundle)

Click on VPL-firstsemester.zip, download and install on expert's computer system for lab simulation.

Follow instructions for lab report criteria and assignment submission rubic on the lab manual and template attached.

Please "do not submit solution in zip format", vet for plagiarism and submission deadline is today (18 Hours window) to be strictly adhered to as required (2100 US TimeZone -5 Central Time).

lab-manualnewtons-second-law-d3bpmzna.pdf templatenewtons-second-law-q0n0o45u.doc n2l-mkspsfps.pptx phy-122-lab-report-criteria-fl3jlw43.pdf

Rahul · Accepted Answer

(1 point)
Title of the Experiment:
Student’s name:
Section SLN:
TA’s Name:
Week of the experiment:
Objectives:  
The objective of the lab is as follows:
a. To experimentally determine that acceleration is proportional to the mass of the system and eventually find the mass of the system.
b. Validate Newton’s second law. 
c. To determine the condition to keep the system motionless on a tilted track.
Experimental Data: 
PART 1. Horizontal, frictionless track and a moving system of constant mass 
Table 1
	Run
	Mass on the hanger (g)
	Acceleration of the system
	
	
	
	1
	 50
	 0.8874
	2
	 60
	 0.9764
	3
	 70
	 1.0638
	4
	 80
	 1.1516
	5
	 90
	 1.2316
Slope and its uncertainty from acceleration vs force graph: Slope is 1136 and uncertainty is 392.40
PART 2. Two-way motion with friction on a horizontal track  
Table 2
Mean value of g:  10.35 m/sec2      standard deviation:  0.4156       number of runs:  3
	Run
	Mass on the hanger 
	Acceleration 1 (system moves towards motion sensor)
	Acceleration 2 (system moves away from motion sensor)
	aaver
	
	
	
	
	
	1
	 70 g
	 2.365
	 0
	1.1825
	2
	 90 g
	 2.531
	0.5508
	1.5409
	3
	 120 g
	2.769
	0.8523
	1.8107
Note: The uncertainty in the experimental gravitational acceleration equals the standard deviation in the average g value as determined by Graphical Analysis.
PART 3. Cart on frictionless tilted track 
Calculated critical angle: 5.74 deg
Experimental critical angle: 7.6 deg
Data Analysis (10 points): 
Part 1:

University Physics (Mechanics) Lab reports (Newton's 2nd Law) using a virtual physics labs (KET Simulation) as guided in the attached assignment instructions files. Below are detailed log in...

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