Q) Check the conflict serializability of the following schedule. S: R3(X), R1(X), W3(X), W1(X), R2(Y), R2(X),...

Draw the Schedule in a horizontal timeline manner with the X and S locks before the...

Draw the Schedule in a horizontal timeline manner with the X and S locks before the W and R. Consider the following sequence of actions, listed in the order they are submitted to the DBMS. Assume Strict 2PL with deadlock detection. Draw a Wait For Graph (WFG) for the transactions and determine whether deadlock exists. w1(x) r2(x) w2 (y) w2(x) w3 (z) r3 (y) w3 (y) w1 (z) abort1 What happens to T2 and T3 when T1 aborts?

1.Starting from a location with position vector r1,x = -16.3 m and r1,y = 20.1 m,...

1.Starting from a location with position vector r1,x = -16.3 m and r1,y = 20.1 m, a rabbit hops around for 14.5 seconds with average velocity vav,x =-2.91 m/s and vav,y = 1.65 m/s. Find the components of the position vector of the rabbit's final location, r2,x and r2,y. r2,x=____m? r2,y​=____m? 2.A turtle ambles leisurely–as turtles tend to do–when it moves from a location with position vector r1,x = 1.43 m and r1,y = -2.29 m in a lettuce garden...

Consider the transformation T: R2 -> R3 defined by T(x,y) = (x-y,x+y,x+2y) Answer the Following a)Find...

Consider the transformation T: R2 -> R3 defined by T(x,y) = (x-y,x+y,x+2y) Answer the Following a)Find the Standard Matrix A for the linear transformation b)Find T([1 -2]) c) determine if c = [0 is in the range of the transformation T 2 3] Please explain as much as possible this is a test question that I got no points on. Now studying for the final and trying to understand past test questions.

IV.Translate the following C code fragment to ARM assembly instructions. Assume t, x, y, and z...

IV.Translate the following C code fragment to ARM assembly instructions. Assume t, x, y, and z are stored in registers r0, r1, r2, and r3. unsigned int x, y, z, t; do { x = x + 1; z = t + (z << 1); y = y - x; } while (y != x); V. What does the following sequence of instructions do? Why? RSB r2, r3, r3, LSL #4 RSB r2, r2, r2, LSL #3 VI. Write a...

Consider the following first-order inference problem given the rules and facts: • R1: If X is...

Consider the following first-order inference problem given the rules and facts: • R1: If X is a close relative of Y and Y is a close relative of Z then X is acquainted with Z. • R2: If X is a parent of Y, then X is a close relative of Y. • R3: If X is married to Y, then X is a close relative of Y. • F1: Sam is a parent of Mike. • F2: Mike is...

Find two linearly independent solutions of 2x2y′′−xy′+(−2x+1)y=0,x>0 of the form y1=xr1(1+a1x+a2x2+a3x3+⋯) y2=xr2(1+b1x+b2x2+b3x3+⋯) where r1>r2. Enter r1=...

Find two linearly independent solutions of 2x2y′′−xy′+(−2x+1)y=0,x>0 of the form y1=xr1(1+a1x+a2x2+a3x3+⋯) y2=xr2(1+b1x+b2x2+b3x3+⋯) where r1>r2. Enter r1= a1= a2= a3= r2= b1= b2= b3= Note: You can earn partial credit on this problem.

Given the following marginal utility schedule for good X and good Y for an individual A,...

Given the following marginal utility schedule for good X and good Y for an individual A, given that the price of X and the price of Y are both $10, and that the individual spends all his income of $70 on X and Y, Q x 1 2 3      4      5      6 7 MUX 15 11 9 6 4 3 1 Q y 6        5 4      3     2 1 0 MUY 12 9       8 6      5      2 1 1. Provide...

Fig 6. SWOT Matrix Strengths Weaknesses CC1: Brand image W1: Less of untapped market is remaining....

Fig 6. SWOT Matrix Strengths Weaknesses CC1: Brand image W1: Less of untapped market is remaining. Please come up with a 3 of each combination based off of the list that was provided so 3 SO, 3 ST, 3 WO, 3 WT. Based off the External Opportunities and Threats and the Internal strengths and Weakness that are given. CC2: Patents licenses W2: Customer acquisition cost is high for newer products. CC3: R&D resources focused on cloud computing services W3: Inadeqaute...

Let S be the set of all real circles, defined by (x-a)^2 + (y-b)^2=r^2. Define d(C1,C2)...

Let S be the set of all real circles, defined by (x-a)^2 + (y-b)^2=r^2. Define d(C1,C2) = √((a1 − a2)^2 + (b1 − b2)^2 + (r1 − r2)^2 so that S is a metric space. Prove that metric space S is NOT a complete metric space. Give a clear example. Describe points of C\S as limits of the appropriate sequences of circles, where C is the completion of S.

Consider the following statements. (i) The differential equation y′ + P(x) y  =  Q(x) has the...

Consider the following statements. (i) The differential equation y′ + P(x) y  =  Q(x) has the form of a linear differential equation. (ii) All solutions to y′  =  e^(sin(x^2 + y)) are increasing functions throughout their domain. (iii) Solutions to the differential equation y′  =   f (y) may have different tangent slope for points on the curve where y  =  3, depending on the value of x