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for the shown proplem the plate is heated after x0 from the trailing edge it reqired to obtain only expression for.....
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The image below is of an aluminium plate that will be heated from the bottom. If the temperature at the bottom of the plate is 600 degrees Celsius and 20 degrees at the top, how long will it take for the top of the plate to reach 200 degrees Celsius? Thermal conductivity = 200 W/mK Specific heat = 921.096 J/kgK mass of plate = 70kg ToP 100 Battom 5 00 mm ToP 100 Battom 5 00 mm
For the mechanism shown, obtain the following: The mobility of the system Develop an analytical expression to determine the position of point B with 4as input. Find an analytical expression to determine the velocity of point B with 4as input. Find the instantaneous centers for the system. 3 in 2 = 1 rad/s 4 30° 4
2) Consider the arrangement of currents shown A. Obtain a symbolic expression for the total force (magnitude AND direction) exerted on li by l2in terms of given quantities. Using the symmetry of the arrangement might make the expression easier to obtain, but you should justify your reasoning with a BRIEF explanation. (10 pts) Calculate the numerical magnitude of the force you found in A. (1 pt) ,15.0 A B. 7.50 cm a 10.0 cm 30.0A L-30.0 cm
i About Exercise 9.5.8 For the circuit shown in the figure above: Obtain an expression for H (u) = Ve /V, in standard form. Generate spectral plots for the magnitude and phase of H(w), given that R 1000. L 0.1 mH, and C 1/LF. Determine the cutoff frequency we and the slope of the magnitude (in dB) when w/w, 》 1. Feedback?
1) Determine the distance from the leading edge of a flat plate at which transition will occur for each of the following fluids when u., = 2 m/s and film temperature of 127 C: atmospheric air, hydrogen and mercury. 2) Repeat the calculations for fluid film temperature of 177 °C.
Problem 5: 1) Determine the distance from the leading edge of a flat plate at which transition will occur for each of the following fluids when u, = 2 m/s and film temperature of 127 °C: atmospheric air, hydrogen, and mercury. 2) Repeat the calculations for fluid film temperature of 177 °C.
A grasshopper leaps into the air from the edge of a vertical cliff, as shown in the figure below (Figure 1). Assume that d1=7.26cm, d2=1.07m, and that θ=46∘ A) Use the information given to find the initial speed of the grasshopper. Express your answer in meters per second to three significant figures. B) Use the information given to find the height of the cliff. Express your answer in meters to three significant figures.
person threw a ball from the edge of a vertical cliff , as shown in Fig . ( I ) . Ignore the air resistance and find the following : ( a ) The initial speed of the ball ( b ) Height of the cliff . 6.74 cm 50.0° Not to scale 1.06 m Fig.(1)
Please someone help me solve this. This question based on Euler's method. 1.5 Provided that f is analytic, it is possible to obtain from y'-f(t, y) an expression for the second derivative of y, namely y" = g(t, y), where ft y g(t, y)a Find the orders of the methods and 1.5 Provided that f is analytic, it is possible to obtain from y'-f(t, y) an expression for the second derivative of y, namely y" = g(t, y), where ft...