6 -2.22 points 8 start Finish represented by the motion diagram shown. Is the acceleration approximately...
7. For each of the motions below sketch a motion diagram as described in section You may use a dot to represent the object in motion. First, establish a coordinate axis for each motion. Draw arrows to scale above each dot to represent the velocity vector. Indicate the acceleration direction for each constant acceleration segment of the motion. (SC) A car is travelling at a constant speed of 35 mph when the driver sees a stop sign. The driver takes...
QUESTION 1 G E. H. C A Finish Start D. Complete the network activity diagram using the table below to answer questions 1-15. The expected activity completion times are provided in days. Each question is 1 point. Most Probable Activity Optimistic Pessimistic A 7 B 12 C 5 12 7 E 10 15 20 6 9 18 G 6 13 H 11 What is the early start (ES) time for activity F? 13 12 10 None of the above are...
early start early finish Timo - - - ---- A 20 late finish Number of workers C 20 required daily for D 5 each activity E 10 F 10 G 15 E ---- FE G ------- - DH Activities GA 1 2 3 4 5 6 7 8 (a) On this diagram, show the total daily workers required (loading) assuming early start times for all activities. Show what portion of the total labor loading each day comes from each activity....
An object's motion is represented by the x vs. t graph shown below Hint: Velocity is the slope of x vs. t graph, and acceleration is slope of v vs. t graph. 130 points: 5 points each r (s) t (a) a. Draw the corresponding v vs. t graph on the axes provided. b. Draw the corresponding a vs. t graph on the axes provided. c. At what times is the position a maximum (most positive)? At those times, is...
QUESTION: An electric motor is required to complete exactly 10000 revolutions from the start of its motion to the end of its motion. Starting from rest the motor undergoes a constant angular acceleration of 120 rad s-2 for 6.00 s to reach its top angular velocity. It then remains at this top angular velocity for exactly 1 minute and is then brought to rest (constant angular retardation). Use an angular velocity-time diagram to help calculate the following: 1)Calculate the top...
An object's motion Is represented by the x vs. t graph shown below. [25 points: 5 polnts each] 4. 7 a. Is the motion periodic? b. Is this simple harmonic motion? c. What is the period? d. What is the frequency? e. Draw the object's v vs. t graph on the axes provided.
Given is a CPM project network diagram as shown below.
Activity
Start
A
B
C
D
E
F
G
H
End
day
0
5
6
9
6
9
8
5
4
0
a) The Project Completion time = days.
b) The Earliest Start time, ES, of Activity G = days.
c) The Latest Finish time, LF, of Acitivity C = days..
d) The critical activities are = (ex. Fill in answer as: ABCD)
End Start
Given is a CPM project network diagram as shown below. A וד H End Start التا B D G A F H Activity day Start 0 B 8 с 3 D 5 E 6 وانما | End 0 8 4 a) The Project Completion time = days b) The Earliest Start time, ES, of Activity G = days. c) The Latest Finish time, LF, of Acitivity C = days d) The critical activities are = (ex. Fill in answer as:...
Given is a CPM project network diagram as shown below. A F Start E H End B D G Start H Activity day А 6 B 3 с 8 D 7 E 4 F 9 G 4 End 0 0 6 a) The Project Completion time = days. b) The Earliest Start time, ES, of Activity G - days. c) The Latest Finish time, LF, of Acitivity - dayy d) The critical activities are (ex. Fill in answer as: ABCD)
QUESTION 5 Given is a CPM project network diagram as shown below. A F Start H End B D G B Activity days Start 0 A 2 H D 3 E 4 F 2 G 3 6 8 End 0 2 a) The Project Completion time days. b) The Earliest Start time, ES, of Activity G - days. c) The Latest Finish time, LF, of Acitivity C- days. d) The critical activities are (ex. Fill in answer as: ABCD)