vectF - np.array([11,-17]) vectp - np.array([2,2]) R- np.arange(-12,8,2.5) c1, c2 - np.meshgrid(R,R) vectR - vectF - vectP spanRx - c1*vectF[e] + c2*vectP[@] spanRy - c1*vectF[1] + c2*vectP[1] **plt.scatter(R*vectA[@],R*vectA[1]) *uplt.scatter(R*vectB[@],R*vectB[1]) plt.scatter(spanRX, spanRy, S=5, alpha=8.75) plt.axhline(y=0, color='k') plt.axvline(Xme, color='k') plt.grid() plt.show() 200 150 ..... 100 fmo...... 50 -50 -100 ...he...

Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Please help asap. Make a flowchart from the code below. Please make sure that your flowchart has only few words and not putting the entire code as it is bad practice. 

vectF = np.array([11, -17])
vectP = np.array([2,2])
R = np.arange(-12,8,2.5)
c1, c2 = np.meshgrid (R, R)
vectR = vectF - vectP
c1*vectF[e]
c1*vectF[1] + c2*vectP[1]
##plt.scatter(R*vectA[0],R*vectA[1])
##plt.scatter(R*vectB[@],R*vectB[1])
plt.scatter (spanRx, spanRy, s=5, alpha=0.75)
spanRx =
c2*vectP[0]
+
spanky =
plt.axhline (y=0, color='k')
plt.axvline(x=0, color='k')
plt.grid()
plt.show()
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Transcribed Image Text:vectF = np.array([11, -17]) vectP = np.array([2,2]) R = np.arange(-12,8,2.5) c1, c2 = np.meshgrid (R, R) vectR = vectF - vectP c1*vectF[e] c1*vectF[1] + c2*vectP[1] ##plt.scatter(R*vectA[0],R*vectA[1]) ##plt.scatter(R*vectB[@],R*vectB[1]) plt.scatter (spanRx, spanRy, s=5, alpha=0.75) spanRx = c2*vectP[0] + spanky = plt.axhline (y=0, color='k') plt.axvline(x=0, color='k') plt.grid() plt.show() 200 150 100 50 -50 -100 -150 -100 -50 50
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