Please answer question 4. Thank you
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Please answer question 4. Thank you
1. Determine the tension in the string and the support...
Please answer question 3. Thank you 1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determin...
Please answer question 3. Thank you
1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determine the tension in the string and the support forces. CA 413 Slezs M = lookg 100ml 3. Determine the tension in the string and the support forces. ASTRING Molookg in =50kg 4. Determine the tension in the string and the support forces. M=100kg m = 1O LA STRING 5. Determine the tension in the string and the support forces....
Please answer question 2. 1. Determine the tension in the string and the support forces. TCD...
Please answer question 2.
1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determine the tension in the string and the support forces. CA 413 Slezs M = lookg 100ml 3. Determine the tension in the string and the support forces. ASTRING Molookg in =50kg 4. Determine the tension in the string and the support forces. M=100kg m = 1O LA STRING 5. Determine the tension in the string and the support forces. 36/4 M=...
Please answer question 5. Thank you Determine the tension in the string and the support forces. 1 7;1 Taino 3L/4 Determ...
Please answer question 5. Thank you
Determine the tension in the string and the support forces. 1 7;1 Taino 3L/4 Determine the tension in the string and the support forces. 2. L3 L/3 STezis i004 Determine the tension in the string and the support forces. 3. M-100k3 h50kg /4 Determine the tension in the string and the support forces. 4. M-100ky Determine the tension in the string and the support forces. 5. M= 100kj $Teln 30
Statics Question. Please answer fast Problem 4: For the truss loaded as shown. Determine the forces...
Statics Question. Please answer fast
Problem 4: For the truss loaded as shown. Determine the forces in members EF, EG, and FG. State whether each of these members is in tension (T) or compression (C). You may use whichever method you would like to solve. H 1200 N 4 m A с E 4 m B D F 3 m 3 m 3 m Problem 5: For the frame loaded as shown, find all reactions from the pin supports at...
Please answer all Parts and include whether the member is in compression or tension or N/A....
Please answer all Parts and include whether the member is in
compression or tension or N/A. Thank you so much.
Using the method of sections, determine the forces in the bars listed below the figure. Given: X= 14 kN. K H G 3 m L M N 3 m АЯ RE B D X KN 16 kN XkN 4 @ 4 m IJ, MC, and MI The force in member IJ (FI) is The force in member MI (FM) is...
Problem 3.59 4 of 15 1 Review Part A Determine the tension developed in the cable...
Problem 3.59 4 of 15 1 Review Part A Determine the tension developed in the cable AB required to support the traffic light, which has a mass of 17 kg. Take h = 3.5 m. (Figure 1) Express your answer to three significant figures and include the appropriate units. MÅ ? FAB = Value Units Submit Request Answer Part B Figure < 1 of 1 Determine the tension developed in the cable AC required to support the traffic light Express...
0/1 pts Question 5 A rock of mass 4 kg is twirled around a string of...
0/1 pts Question 5 A rock of mass 4 kg is twirled around a string of radius 2 m with a speed of 10 m/s. Determine the tension (units of Newtons) in the string (neglect gravity). er 200 margin of error +/- 5%
please answer all these questions Archimedes Principle - Upward Tension Additional Force As shown in the...
please answer all these questions
Archimedes Principle - Upward Tension Additional Force As shown in the above figure, a solid object has a density of 1200 kg/m3 and a volume of 7.80x10^-5 m3. It is lowered on a string into water and completely submerged without touching the container. The density of water is 1000 kg/m3. Keep 3 decimal places in all answers. (Don't use scientific notations.) Without the string, would the solid object sink in water or float in water?...
Please answer the questions in each photo thank you! Page 2 of 3 HYS 181: Ropes...
Please answer the questions in each photo thank you!
Page 2 of 3 HYS 181: Ropes and Pulleys Names: 1.0 kg 3. The 1.0 kg block in the figure is tied to the wall with a rope. It sits on top of the 2.0 kg block. The lower block is pulled to the right with a tension force of 20 N. The coefficient of kinetic friction at both the lower and upper surfaces of the 2.0 kg block is th=0.40....
Please answer both questions thank you. Question 39 (1 point) Translate the following conditions to Java,...
Please answer both questions thank you.
Question 39 (1 point) Translate the following conditions to Java, where x is an integer and s is a string. 1. x >= 6 2. x < 0 s is "Day" 3. S = "Day" x is at least 6 4. X == -7 DODO x is at most 6 5. x = -7 x is - 7 6. s.equals("Day") 7. x <= 6 x is not 27 8. X >O x is positive...
Please answer question 3. Thank you
1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determine the tension in the string and the support forces. CA 413 Slezs M = lookg 100ml 3. Determine the tension in the string and the support forces. ASTRING Molookg in =50kg 4. Determine the tension in the string and the support forces. M=100kg m = 1O LA STRING 5. Determine the tension in the string and the support forces....
Please answer question 2.
1. Determine the tension in the string and the support forces. TCD 3L/4 2. Determine the tension in the string and the support forces. CA 413 Slezs M = lookg 100ml 3. Determine the tension in the string and the support forces. ASTRING Molookg in =50kg 4. Determine the tension in the string and the support forces. M=100kg m = 1O LA STRING 5. Determine the tension in the string and the support forces. 36/4 M=...
Please answer question 5. Thank you
Determine the tension in the string and the support forces. 1 7;1 Taino 3L/4 Determine the tension in the string and the support forces. 2. L3 L/3 STezis i004 Determine the tension in the string and the support forces. 3. M-100k3 h50kg /4 Determine the tension in the string and the support forces. 4. M-100ky Determine the tension in the string and the support forces. 5. M= 100kj $Teln 30
Statics Question. Please answer fast
Problem 4: For the truss loaded as shown. Determine the forces in members EF, EG, and FG. State whether each of these members is in tension (T) or compression (C). You may use whichever method you would like to solve. H 1200 N 4 m A с E 4 m B D F 3 m 3 m 3 m Problem 5: For the frame loaded as shown, find all reactions from the pin supports at...
Please answer all Parts and include whether the member is in
compression or tension or N/A. Thank you so much.
Using the method of sections, determine the forces in the bars listed below the figure. Given: X= 14 kN. K H G 3 m L M N 3 m АЯ RE B D X KN 16 kN XkN 4 @ 4 m IJ, MC, and MI The force in member IJ (FI) is The force in member MI (FM) is...
Problem 3.59 4 of 15 1 Review Part A Determine the tension developed in the cable AB required to support the traffic light, which has a mass of 17 kg. Take h = 3.5 m. (Figure 1) Express your answer to three significant figures and include the appropriate units. MÅ ? FAB = Value Units Submit Request Answer Part B Figure < 1 of 1 Determine the tension developed in the cable AC required to support the traffic light Express...
0/1 pts Question 5 A rock of mass 4 kg is twirled around a string of radius 2 m with a speed of 10 m/s. Determine the tension (units of Newtons) in the string (neglect gravity). er 200 margin of error +/- 5%
please answer all these questions
Archimedes Principle - Upward Tension Additional Force As shown in the above figure, a solid object has a density of 1200 kg/m3 and a volume of 7.80x10^-5 m3. It is lowered on a string into water and completely submerged without touching the container. The density of water is 1000 kg/m3. Keep 3 decimal places in all answers. (Don't use scientific notations.) Without the string, would the solid object sink in water or float in water?...
Please answer the questions in each photo thank you!
Page 2 of 3 HYS 181: Ropes and Pulleys Names: 1.0 kg 3. The 1.0 kg block in the figure is tied to the wall with a rope. It sits on top of the 2.0 kg block. The lower block is pulled to the right with a tension force of 20 N. The coefficient of kinetic friction at both the lower and upper surfaces of the 2.0 kg block is th=0.40....
Please answer both questions thank you.
Question 39 (1 point) Translate the following conditions to Java, where x is an integer and s is a string. 1. x >= 6 2. x < 0 s is "Day" 3. S = "Day" x is at least 6 4. X == -7 DODO x is at most 6 5. x = -7 x is - 7 6. s.equals("Day") 7. x <= 6 x is not 27 8. X >O x is positive...
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