I've figured out part a and b but am having trouble on part c. Thanks!
I've figured out part a and b but am having trouble on part c. Thanks! VU...
Homework 02 (Chapter 02) Problem 2.37 8 of 10 > B10 Review Previous Answers Three particles move along the r-axis, each starting at to = 0 s. The graph for A is a position-versus-time graph: the graph for B is a velocity-versus-time graph; the graph for C is an acceleration-versus-time graph. Correct Part C Find the velocity of the particle C att-6.0 s. Particle starts with vo10 m/s at to 0 s. (Figure 3) Express your answer with the appropriate...
help with figure 15.8 7. 11 FIGURE EXI 5.7 1s the position-versus-time graph of a particle in simple harmonic motion. a. What is the phase constant? b. What is the velocity at t-0s? c. What is Vmax? x (cm) 10 V (cm/s) 60 30 0 0 30 60 9 12 10 FIGURE EX15.7 FIGURE EX15.8
Hey, its not hard. But I do not remember what I literally just did. Please help tem 2 2 of 7 Express your answer in meters per second Review Constants | Periodic Table Ug-0 A bicyclist has the position-versus-time graph shown in Figure 1). Correct Part C Figure 1 of 1> What is the bicyclist's velocity at t = 35 s? Express your answer in meters per second x (m) 100 m s 50 Submit Previous Answers Request Answer 0...
Three particles move along the x-axis, each starting at t0 = 0 s. The graph for A is a position-versus-time graph; the graph for B is a velocity-versus-time graph; the graph for C is an acceleration-versus-time graph. Find the velocity of the particle C at t = 6.5 s. Particle starts with v0x = 10 m/s at t0 = 0 s. (Figure 3) Express your answer with the appropriate units. Next Fi ure O 3of3 a (m/s2) 30 20 10...
Part B and C The figure shows a position versus time graph for a particle In SHM (Figure 1) What is the angular frequency omega? Express your answer to three significant figures and include the appropriate units. What is the phase constant phi_0 ? 60 degree 120 degree 90 degree 30 degree
1) For each of the net force versus time graphs in Parts A, B, and C, construct a possible corresponding graph of velocity v(t), or position x(t), versus time. Assume one-dimensional motion. Plot velocity versus time. (Figure 1) Part B Plot velocity versus time. (Figure 2) Part C Plot position versus time. (Figure 3)
the whole thing. I think I figured out the first part, just having trouble with second part. I am not sure that they correlate to one another. PROPAGATING UNCERTAINTY - MULTIPLICATION AND DIVISION To learn how to propagate uncertainty when dividing, read the following example: EXAMPLE 2: You are trying to determine the speed of a person who is running. You measure the distance they run to be x = 80.0 m and the time it took them to be...
26/ Only calculate the speed of the segment A, B, C suddenly you sawa s later you heard the air is about 340 m/s us system can prop- stimate the time it Time, t (s) ur finger touches a FIGURE 2-25 Problem 23 per hour s tortoise, which r 1.2 minutes the flight in the same hat was the aver- val? 24. . The position of a particle as a function of time is given by x (-5 m/s)t +...
Hi! I am having trouble answering these questions, more specifically I am stuck on part B! Could you please help me out and let me know how to answer this? Thanks! 2) As a continuation of the experiments in Question 1 you want to study the timing of the APC's activity more distinctly. To do this you treat your cells with MG132- a proteasome inhibitor. When MG132 is added to cells proteins can still be ubiquitinated, but they are not...
I am having trouble in understanding this question. The second photo is part b of the question. Any help would be appreciated! Four Hfr strains of E.ole known to transfer thier genetic material during conjugation in different sequences. Given the time of entry of the markers into the F-recipient, construct a genetic map which includes all of these markers, starting with arg as number 1 and phe as number 11.(Not all markers were assayed in each strain, remember the E.coli...