ch to scale the isodops for a radar traveling horizontally at 300 ms- at a height...
1. An airplane if flying horizontally at a constant height of 6 km above a fixed observation point. At a certain moment the angle of elevation θ is 30° and decreasing and the speed of the plane is 4 km/h. (a) How fast is 0 decreasing at this moment? (b) How fast is the distance between the plane and the observation point is changing at this moment? 2. Trajectory of a particle is described by parametrical equations as t,y P,...
Detailed explantion please. PITY263: Ch 16 Written Tomework, Due Thursday, Sept 12 at 8:00 am Note on homework solutions: In order to receive full credit for homework solutions, your work needs to be presented clearly, neatly, and completely. State answers to no more than three significant figures. 1. A sinusoidal transverse wave is traveling along a taut wire in the negative x-direction. It has an angular wave number of 1.50 cm-1, a period of 2.50 ms, and an amplitude of...
1 K CH.1 CH.2 Problems (13-14): The circuit above with an unknown impedance was connected to a function generator, and the scope picture at the left was saved. Your lab partner claims he wrote down the scales on the oscilloscope and the unknown component values, but now says he can't find them. However, you remember that the larger waveform is Channel 1, and that the frequency was 500 Hz 13. The horizontal time scale is (a) 0.5 ms/div (c) 4...
10) The velocity (t) of a particle as a function of time is given by (h) - 023 m/s) (4.1 m/s2)+- (62 m/s3)2. What is the average acceleration of the particle between t = 10 s and t - 205? A) - 15 m/s2 B ) 15 m/s2 C) -13 m/s2 D) O m/s2 E) 13 m/s2 11) A car starts from rest and accelerates uniformly at 3.0 ms2 toward the north. A second car starts from rest 60 s...
Lab 10: Pre-labs This pre-lab is worth 30 points of your final grade. Show your work to get full credit. Each problem is worth 5 points. Problem 1: The angular velocity of flywheel decreases uniformly from 12000rev/min to 3000 rev/min in 8 sec. Find the angular acceleration and the number of revolutions made by the wheel in the 8 sec interval. How many more seconds are required for the wheel to come to rest? Problem 2: A uniform meter scale...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
Work out #5, clearly and with units. Please and thank you! plane of the rectangle? (b) How much angular momentum and kinetic energy does the array have if it rotates at an angular velocity of 20 rad/s? 3. Determine the minimum area of a flat ice floe (sheet) 100 cm thick if it must support a 1600-kg truck above seawater. Assume the top of the ice is level with the ocean. (Hint: what is the volume of the ice?) Pice...
please help me to solve the following question ASAP . source files :- Create MS Word document with the following requirements. You final out should look like the file "Formatted.docx”. Use the content of the file "Text.docx” and “Icon.png" as source files. 1) Configure the page before typing. a) Page direction b) Page border c) Water mark. 2) Insert page number 3) Insert header & footer. 4) Font size is 13 point 5) Insert the picture attached 6) Insert the...
Physics I52 Due: Wednesday, April 24, 2019 Roster No.: Score: Paper Homework #10 For multiple-choice questions, circle the letter of the one best answer (unless more than one answer is asked for). Show your work on free-response questions. Be sure to use proper units and significant figures in your final answers. Organization and neatness count, too. Do NOT use red ink- please reserve that color for grading. 1. You do NOT need to show your work for this question. Be...
Please work out 3 clearly and with units. Thanks! 1. A 10-g bullet travels vertically upwards at 1000 m/s, then strikes and passes through a 2.0-kg block initially at rest. The bullet emerges from the block with a speed of 400 m/s because it transfers momentum to the block. (a) How much momentum did the block gain? (b) How fast is the block now moving, and what is its kinetic energy? (c) Using energy considerations only, to what maximum height...