Verizon 3:44 PM 100% Finding displacement from velocity gr... v (m/s) 3 0.5/1 1.5 2 2.5...
Verizon < Finding displacement from velocity gra direction. 2:24 AM v (m/s) 4 3 > t (s) 0.5 1 1.5 2 2.5 3 3.5 -2 What is the butterfly's displacement Ar from t 2 s to 4 s? Answer with two significant digits. Stuck? Use a hint. Check
Verizon 4:27 PM 80% Finding displacement from velocity gr... A possum is trying to cross the street. Its velocity v as a function of time t is given in the graph below where rightwards is the positive velocity direction. v (m/s) 123 4 5 -3 What is the possum's displacement Ar from t 3s to 5 s? Stuck? Use a hint. Do 4 problems Check
Verizon 11:58 PM < Solving freefall problems using kinemat A book is thrown downward from the library window with a speed of 2.0- and lands on the gro und 5.0 m below. We can ignoreair resistance. What is the final velocity of the book in-? Answer using a coordinate system where upward is positive. Round the answer to two significant digits. Stuck? Use a hint. Check
3. Sketch the velocity-versus time graph from the following position versus time graph: n) 0.5 1.5 2.5 3.5 t(S) -0.5
What is the Laplace Transform of below function ? 0.5 o 0.5 1 1.5 2 2.5 3 Time (s) 3.5 4 4.5 5 5.5 Cae-1.551 0.51 s? +(0.571)2 40 OB.( OB. (5-1.5)2 + (410) 0.571 OC (3–1,+0.50 00.2-15742 m OE. None of above
3.5 2.5 1.5 0.5 8 10 Model velocity, ft/s Problem Statement: A sphere moving in a fluid experiences a drag force that is known to be a function of the sphere diameter, velocity, density, and viscosity. You performed some lab tests on a 3 inch diameter sphere using a water tunnel. The figure below indicates the results of your model test. For the tests the viscosity of the water was 2.34 10sifi2 and the water density was 1.94slugslfi3. Based on...
An original signal, v(t), and a transformed version, v1(t), are defined to be v(t)=-2u(t-3.0)+3u(t-1)+2u(t+0.5)-3u(t+4.0) Plot of v(t) 1.5- 1. 0.5 -0.5- -1. -1.5- -2- -2.5- -3- -3.5 - -6 I v(t) vs t (Sec) Plot of v1(t) 3.5- 3- 2.5- 2- 1.5- 1- 0.5- -0.5- -1- -1.5- 2- -2.5- I v1(t) vs t (Sec) Determine the specific transformation of time that yields v1() from v(). The transformation has the general form of v1(t) = A*v(C*t + D). Thus t in...
Could you please show all work? Thanks! 7. Sketch the graph of f(z, y) 2.5 60 40 20 1.5 20 -40 0.5 -1 0.5 0 0.5 1 -3-2-101 2 3 (a) s 3 2 1 0 1 -2 10 1 -2 01 7. Sketch the graph of f(z, y) 2.5 60 40 20 1.5 20 -40 0.5 -1 0.5 0 0.5 1 -3-2-101 2 3 (a) s 3 2 1 0 1 -2 10 1 -2 01
The velocity ofa particle is defined by v (-2i+(3-20A, m/s where t is in seconds. If r 0 when t 0, determine the displacement of the particle during the time interval t As (-8/-4A, m As (-6i+-6A. m As (-10/-2A.m As-(-4, m 1 s and t 4 s. A motor gives a disk A an angular acceleration of aA (2t+3) rads, where t is in seconds. If the inidal angular velocity of the disk is Dg 5 rads, determine the...
Michaelis GRAPH 4 3.5 3 2.5 Vo (unit/min) 2 1.5 1 0.5 0 0 50 100 200 250 300 150 [H4] (mm) Q7: Using the plotted “Michaelis Graph", you will provide an approximate value for both the Vmax and the Km for this SGRGK short peptide. Do not forget the units for these two parameters. To secure full credit, you must provide clear explanations on how you determined these two Vmax and Km (15pts).