Homework Answers
Equilibrium of force on A
MA * a = T - MA g sin (theta)
T = MA a + MA g sin ( theta). ... (i)
Equilibrium of forces on B
MB a = MB g - T
Form (i)
MB a = MB g - ( MA a + MA g sin (theta) )
a = g ( MB - MA sin (theta) ) / ( MA + MB)
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Comment in case any doubt, will reply for sure.. Goodluck
Please answer all 3 questions! Thank you! 1). Calculate the control block flow diagram. Fi Ti...
Please answer all 3 questions! Thank you!
1). Calculate the control block flow diagram. Fi Ti CT ST 2). Calculate the Laplace equivalent of the following equations: where T is the output variable, A and B are constants and u, uz, and us are the deviations variables for the input temperature (Ti), input flow (Fi) and input heat flow (Q), respectively. where T is the output variable, A, B, and C are constants and u,, U2, and uj are the...
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Please label work... if you may ..thank you!
111 ·.. A 1.00-kg block (mass m) and a second block (mass M) are both initially at rest on a frictionless inclined plane (Figure 8-56). Mass M rests against a spring that has a force con- stant of 11.0 kN/m. The distance along the plane between the two blocks is 4.00 m. The 1.00-kg block is released, making an elastic collision with the larger block. The 1.00-kg block then re- bounds a...
Could you please show your work as well? Thank you! The weight of the block in...
Could you please show your work as well? Thank you!
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urive colle ction nation be d as tie collection and th italie coll ke e pasted...
urive colle ction nation be d as tie collection and th italie coll ke e pasted on rem 8 You il vada le des fanalied ne peviod to Complete ts uvine colle Ction Yau shoud disad urive thet is dlark o eyiad to com uvine oll be son to the со
Thank you in advance for any help! A block of mass 3.70 kg moves in a...
Thank you in advance for any
help!
A block of mass 3.70 kg moves in a straight line on a horizontal frictionless surface under the influence of a force that varies with position as shown in the figure. How much work is done by the force as the block moves from the origin to 8.00 m? 10 T..T.ITT.TT!IIT 10 4 Position (m) 51.8J Submit Answer Incorrect. Tries 3/15 Previous Tries If the block has a velocity of 4.20 m/s at...
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Please show steps, thank you!
A 2.0-kg block oscillates on the end of a mass less spring. The resulting simple harmonic motion is shown in the drawing what is the potential energy of the block at t = 1.0 s? 0.016J 4.0J 13J 0.72J n.o.t
Please answer all 3 questions! Thank you!
1). Calculate the control block flow diagram. Fi Ti CT ST 2). Calculate the Laplace equivalent of the following equations: where T is the output variable, A and B are constants and u, uz, and us are the deviations variables for the input temperature (Ti), input flow (Fi) and input heat flow (Q), respectively. where T is the output variable, A, B, and C are constants and u,, U2, and uj are the...
Please explain how you proposed the structure. Thank you!
The 'FI-NMR spectrum shown is that of a compound with formula C,H,O,. This compound has an IR absorption at 1716 cm. Propose a structure.
Please label work... if you may ..thank you!
111 ·.. A 1.00-kg block (mass m) and a second block (mass M) are both initially at rest on a frictionless inclined plane (Figure 8-56). Mass M rests against a spring that has a force con- stant of 11.0 kN/m. The distance along the plane between the two blocks is 4.00 m. The 1.00-kg block is released, making an elastic collision with the larger block. The 1.00-kg block then re- bounds a...
Could you please show your work as well? Thank you!
The weight of the block in the drawing is 68.5 N. The coefficient of static friction between the block and the vertical wall is 0.400 Block (a) What minimum force F is required to prevent the block from sliding down the wall? (Hint: The static frictional force exerted on the block is directed upward, parallel to the wall.) (b) What minimum force is required to start the block moving up...
Steel design
in block shear for Fi . shown. Determine the maximum 3, 2 2" 4 2 Plate Fiq. 2 dia. bolts
( Problem Assignment No.8 Problem 19.12 ction is 02 A vetical Part A Determine the E spool about the axle O to be ko 70m re xpress your anser using three sigaiicant ligures Figure 249.78 incorrect; 媢 O Tvpe here to search 8
Please Help! thank you
Two blocks are moving along the r-axis. Block A is moving with a velocity of +25 cm and Block B is moving with a velocity of-15m. The mass of Block A is 250g and the mass of Block B is 150g. If the two blocks stick together what is their final velocity? If the two blocks collide elastically what are their final velocities?
urive colle ction nation be d as tie collection and th italie coll ke e pasted on rem 8 You il vada le des fanalied ne peviod to Complete ts uvine colle Ction Yau shoud disad urive thet is dlark o eyiad to com uvine oll be son to the со
Thank you in advance for any
help!
A block of mass 3.70 kg moves in a straight line on a horizontal frictionless surface under the influence of a force that varies with position as shown in the figure. How much work is done by the force as the block moves from the origin to 8.00 m? 10 T..T.ITT.TT!IIT 10 4 Position (m) 51.8J Submit Answer Incorrect. Tries 3/15 Previous Tries If the block has a velocity of 4.20 m/s at...
#22. Answer is A.
Please show steps, thank you!
A 2.0-kg block oscillates on the end of a mass less spring. The resulting simple harmonic motion is shown in the drawing what is the potential energy of the block at t = 1.0 s? 0.016J 4.0J 13J 0.72J n.o.t
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