1. Examine the graphs for the both runs 1& 2 and explain how the shape of the potential vs. time graph is consistent with your understanding of Faraday’s law. Your explanation should account for value of the induced emf when the current reached a maximum or minimum value. Give an explanation for each graph.
1. Examine the graphs for the both runs 1& 2 and explain how the shape of...
Here are the graphs.
instrument should have an absorbance reading of zero when there is no CuS04 present. Print copies of the graph for you and your partner to submit with your lab reports. Calculate the concentration of the unknown using the equation for the line. emros Concentration (M) Absorbance 0.5 1.005 0.3 0.704 0.617 0.25 0.1 0.291 0,05 0.131 0.513 Concentration VS Absorbance 1.2 y 2.1773x R2 0.9566 1 e4e4eeresases4s4 0.8 0.6 0.4 0.2 0.4 0.5 0.6 0.1 0.2...
For
Both Figures:
Is h[n] symmetrical or asymmetrical?
How is the magnitude response?
Is the phase response linear? Why?
My current answer is:
For Figure A: symmetrical, not sure about mag response, linear
phase response
For Figure B: asymmetrical, not sure about mag response,
non-linear phase response because of the slight delay in the
wrapped phase response?
A full explanation for the magnitude and phase response,
please.
Type I FIR Filter, Zero Phase Response Magnitude Response 0.35 0. 30 -...
i
do not know how to interpret these graphs. please when exlaining do
not write the definition and instead can you write whats going on
in the graphs like the errors. alos air pop in the graph means air
pollution
Residuals vs Fitted 0151 3 OO Oo 1850 450 60 65 70 75 80 Fitted values Im(Malelife GDP + ruralpop + airpop) Normal Q-Q 1510 045 0185 2 -3 2 -1 1 3 Theoretical Quantiles Im(Malelife- GDP+ ruralpo+ airpop) Scale-Location...
Examine the GC Chromatogram below in the page below. The GC was conducted at 85 °C with no ramping of temperatures on a SiO2 column. analysis of the mixture used in this GC. The molecules that were used Provide an in this GC experiment were the following: 139.4°C 175-1'F 80.1 herzcnd 78. 372 P-Yglenc CH3 Toulene CH3 H3C OH CH3 CHs CH3 Cнз 5 7 Hас CHн, 0cdane (r,5-Amethylhexe 100.1-104.4 Label the GC peaks from A-F (left to right) and...
looking for the rest of the answers to pages 5-2, 5-6. (graphs
are included at the end)
DATA 722.1 Mass of cart with plastic box mounted on it- Mass constant, resultant force varied 0:78 Total moving mass =_7799-m: Acceleration (in m/s Resultant Force 0.1728 0.196 20 gm wt = nt G-311 gm wt = 0.39Z 40gm wt = 0-$584 Resultant force constant, mass varied Resultant forceo gm wt-9.49 nt Reciprocal of total moving mass (Can be obtained when use Excel...
Post lab: Show all calculation to receive credit for an answer. Be sure to indicate your final answer where appropriate. 1. An amine complex of cobalt(III) is yellow-orange and has a box of 475 nm. The standard curve below is for a set of standards measured at me in a 1.8 cm cell. Use it to answer the questions that follow. 0.8 0.7 0.6 0.5 Ab sorbance 0.4 0.3 0.2 0.1 0 0 0.05 0.1 02 0.25 0.3 0.35 0.15...
PLEASE HELP! the graphs are attached
Procedure: Styles Editing 1. Click on the begin button and then click on the start button. You may change the Mass 1 and Mass 2 if it is necessary. Make sure the Mass 1 is always greater than the Mass 2. Record the mass values. Attach both graphs that you get using the simulation. Mass 1 = 115 kg Mass 2 105 kg 1 2. Draw free body diagram for each mass. m. m2...
HELP NEEDED!!!!!!! especially with the graphing for objects 1
and 2 together and object 3 squared. People are getting different
graphs and I do not know if it is correct. Also SIG FIGS in
analysis. THANK YOU IN ADVANCE
Part 1 - Velocity Position versus Time (x vs t) graph for Object 1 x versust-Object 1 y 1.2754x+ 0.0187 x (m) Linear (x (m)) 0 Position versus Time (x vs t) graph for Object 2 x versus t-Object 2 4.5...
need help with 1-4 ANALYSIS
F vs T^2 0.034 0.033 0.032 0.031 0.03 0.029 0.028 0.027 0.026 0.025 26.6 26.4 26.2 25.6 25.8 25.4 25.2 TA2 F vs 1/TA2 0.034 0.033 0.032 0,031 0.03 0.029 0.028 0.027 0.026 0.025 0.0376 0.0378 0.038 0.0382 0.0384 0.0386 0.0388 0.039 0.0392 0.0394 0.0396 1/T^2 26 r vs TA2 0.9 0,8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 65 50 45 40 35 30 TA2 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1...
1. Carefully explain how to complete the table below to determine the SDH specific activity in the post nuclear supernatant using the data supplied. Assume the same volumes were used as in the practical and tubes 7 and 9 had a negligible change in DCPIP concentration over 30 minutes. tube A600nm 5 mins A600am 35 mins AA600nm 5-35 mins A[DCPIP) UM 5-35 mins 1 tube umoles DCPIP.min volume of extract assayed (ml) activity umoles.min l.ml1 specific activity umoles.min-1.mg 1 1...