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Problems 1. Set up the solution to the problem stated in the book, but solve for values of tension in cable B ranging from 500 N to 3000 N in increments of 500 N. Create a table of results and plot the angle vs tension in cable B. Assume that the cables are attached to the weights rather than a passing through loops attached to the weights. Show the force balance equations you use for answering the questions, - noting that the vertical AND horizontal forces acting on each weight must EACH sum to zero. Check your logic using your previous solution with a different angle.
Problem 2. You will need to read problem 8 to get the formulae needed for problem. The volume of the cone section uses a different equation than the volume of the cylindrical section. The challenge is to create a formula that includes the logic to calculate the correct volume at any height - in either the conical or cylindrical section. This will include an "if" function to determine if the height is above or below the top of the cone section. The radius of the tank varies with height in the cone section but is fixed in the cylindrical section. Your solution MUST produce correct results if you change the height or diameter of the cone - without needing to change any other cells. Thus your if function should compare the current height to the height of the cone section (in a data cell, not typed into the formula) and provide the necessary volume formula.Use a conical section diameter of 3 meters and a total height of 12 meters rather than the values in the book. Your solution should be set up to allow changing these easily.
Problem 3. Set up the problem so you can easily vary the temperature and the volume per mole. Consider the use of a spinner or a scroll bar to change one of these. Your solution should automatically adjust when the inputs are changed.
Problem 4. Using text manipulation functions, create a table which fills in the data about a student's schedule.
A duplex receptacle with one receptacle outlet always hot and the other outlet switched from two switch locations. The receptacle has two controlled outlets, must be powered through a switch control (SPDT), include all phase, neutral and grounding..
A parallel circuit consists of a source and 15 ohm and 30 ohm resistors. The resistor of 15ohm draws a current of 8A. a) Find the current out of the current source. b) Find the current through the 30 ohm resistor.
A point charge Q is located at (0,0,d) above an infiniteconducting plane that lies in the xy-plane and is maintained atground potential. Find a) the surface charge density as a function of x and y on the conducting plane and b) the total charge in..
What is a Solenoid and Solenoid Magnetic Field
A SEMICONDUCTOR IN THERMAL EQUILIBRIUM, HAS A HOLE CONCENTRATION OF P0=1016 CM-3 AND AN INTRINSIC CONCENTRATION OF Ni =1010 CM-3. THE MINORITY CARRIER LIFE TIME IS 4*10-7s.
If a plane has intercepts at 2a, 3a, and 4a along the three Cartesian coordinates, where a is the lattice constant, find the Miller indices of the planes.
The energy stored in a 2H inductor is 400J and is decreasing at 200J/s at t=4 seconds. Determine the voltage magnitude and curent magnitude at t=4 seconds. Does the current enter or leave the positive terminal of the inductor.
this is problem 6.26 from kalman filtering book written by grewal.matlab files that need to be modified in order to
Consider a half-wave rectifier circuit with a triangular wave input of 5-V peak to peak amplitude and zero average, and with R=1kΩ. Assume that the diode can be represented by the constant-voltage-drop model with Vd=0.7V. Find the average value of..
Consider the circuit as shown below. If Vin peak voltage = 12V, Calculate the output voltage Vo. Open loop voltage gain of the Operational Amplifier A=10,000. The voltage drop across the diode is 0.7 V.
In an electricity experiment, it was observed that as the potential difference in volts across a thin platinum wire increases the current in amperes changes as follows: (V,I)=(0,0), (1.0,0.112), (3.0,0.337), and (6.1,0.675).
In the presentation, the presenter, Mr. Rob Tucker discussed three types of disturbance mitigation responses or measures. List the three mitigation types and give a short definition of each of the mitigation type.
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