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2. [15 pts) An object on Earth is thrown upward as shown in the diagram below....
1. Analog Computing. Consider an object thrown straight upward with an initial vertical velocity vo from...
1. Analog Computing. Consider an object thrown straight upward
with an initial vertical velocity vo from an initial height h(0)
0
We will use the circuit below to do an analog calculation of thc
altitude as a function of time.
vout (t) = klh(t)
Vo is fixed at Vo = kovo, where vo is the initial upward velocity.
All Rs are equal and all Cs are equal. Assume all capacitors are
initially discharged.
(a) Write an expression for the output...
Use Basic/Beginner C++ skills, code in Visual Studio 2017 When a ball is thrown vertically upward...
Use Basic/Beginner C++ skills, code in Visual Studio
2017
When a ball is thrown vertically upward from a reference location, it travels to a maximum height and then changes direction and experiences a fall. Ignoring the air resistance and a number of other tiny influences, the location of the ball (H) and its velocity (V) at time ) can be expressed by the following expressions: Here Vo is the initial upward velocity, g is the earth gravitational acceleration (9.81 m/s)...
(15 pts) 14. The energy band diagram for an ideal MOS-C under a specific gate bias is shown below...
Please do d e and f
(15 pts) 14. The energy band diagram for an ideal MOS-C under a specific gate bias is shown below. The device is maintained at T 300 K, kTiq 0.026 V, n, 1010 cm Note that E EF at the surface of the semiconductor. Answer the following questions. (d) Determine the surface potential s. (3 pts) EFM 0.24eVEc (e) Determine Dr. (3 pts) E, 0437 ev Ev 0 (a) What biasing mode is this MOS-C...
The plot below shows the velocity vs. time for an object moving along the x axis....
The plot below shows the velocity vs. time for an object moving
along the x axis. The object is initially at position x = 0 at time
t = 0. Assume two significant figures for your graph
values.
a. Find an equation for the velocity v(t)
2. The plot below shows the velocity vs. time for an object moving along the x axis. The object is initially at position x = 0 at time t = 0, Assume two significant...
2. A baseball thrown from the outfield, a golf ball, or a thrown football, all will follow a trajectory (path) that has horizontal as well as vertical displacement components. If we neglect the a...
2. A baseball thrown from the outfield, a golf ball, or a thrown football, all will follow a trajectory (path) that has horizontal as well as vertical displacement components. If we neglect the air friction on the ball, the path will be a perfect parabolic trajectory. The equations for the displacement of the ball are: Take gravity g as 9.81 meters per second, and the initial velocity, Vo, equal to 35 meters/second. Use Excel to show the ball trajectory for...
In the system shown below, the switch S is closed at t = 0. Assume it...
In the system shown below, the switch S is closed at t = 0. Assume it takes T = ls for a signal to travel down the entire transmission line. The characteristic impedance of the line is Zo Son, and the source and load resistances are shown in the figure. • Draw the voltage bounce diagram. • Using the bounce diagram, plot V(z = 0,t), the voltage at z = 0 (the start of the line) as a function of...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is 12 = 99.75 in4 and the centroid is given....
Problem 1 a) For the object shown in the diagram below, complete the ray diagram. You...
Problem 1 a) For the object shown in the diagram below, complete the ray diagram. You must use a ruler and pencil for the ray diagram - 2 cm 0 11 13 IS (cm) b) Calculate the image distance. c) Calculate the lateral magnification. d) State the three characteristics of the image Real or virtual • Inverted or upright • Enlarged, diminished or the same size he concave lens is then removed and replaced by a concave lens as shown...
1. Analog Computing. Consider an object thrown straight upward
with an initial vertical velocity vo from an initial height h(0)
0
We will use the circuit below to do an analog calculation of thc
altitude as a function of time.
vout (t) = klh(t)
Vo is fixed at Vo = kovo, where vo is the initial upward velocity.
All Rs are equal and all Cs are equal. Assume all capacitors are
initially discharged.
(a) Write an expression for the output...
Use Basic/Beginner C++ skills, code in Visual Studio
2017
When a ball is thrown vertically upward from a reference location, it travels to a maximum height and then changes direction and experiences a fall. Ignoring the air resistance and a number of other tiny influences, the location of the ball (H) and its velocity (V) at time ) can be expressed by the following expressions: Here Vo is the initial upward velocity, g is the earth gravitational acceleration (9.81 m/s)...
Please do d e and f
(15 pts) 14. The energy band diagram for an ideal MOS-C under a specific gate bias is shown below. The device is maintained at T 300 K, kTiq 0.026 V, n, 1010 cm Note that E EF at the surface of the semiconductor. Answer the following questions. (d) Determine the surface potential s. (3 pts) EFM 0.24eVEc (e) Determine Dr. (3 pts) E, 0437 ev Ev 0 (a) What biasing mode is this MOS-C...
The plot below shows the velocity vs. time for an object moving
along the x axis. The object is initially at position x = 0 at time
t = 0. Assume two significant figures for your graph
values.
a. Find an equation for the velocity v(t)
2. The plot below shows the velocity vs. time for an object moving along the x axis. The object is initially at position x = 0 at time t = 0, Assume two significant...
2. A baseball thrown from the outfield, a golf ball, or a thrown football, all will follow a trajectory (path) that has horizontal as well as vertical displacement components. If we neglect the air friction on the ball, the path will be a perfect parabolic trajectory. The equations for the displacement of the ball are: Take gravity g as 9.81 meters per second, and the initial velocity, Vo, equal to 35 meters/second. Use Excel to show the ball trajectory for...
In the system shown below, the switch S is closed at t = 0. Assume it takes T = ls for a signal to travel down the entire transmission line. The characteristic impedance of the line is Zo Son, and the source and load resistances are shown in the figure. • Draw the voltage bounce diagram. • Using the bounce diagram, plot V(z = 0,t), the voltage at z = 0 (the start of the line) as a function of...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is 12 = 99.75 in4 and the centroid is given....
Problem 1 a) For the object shown in the diagram below, complete the ray diagram. You must use a ruler and pencil for the ray diagram - 2 cm 0 11 13 IS (cm) b) Calculate the image distance. c) Calculate the lateral magnification. d) State the three characteristics of the image Real or virtual • Inverted or upright • Enlarged, diminished or the same size he concave lens is then removed and replaced by a concave lens as shown...
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