Mostly just need help with
part a, but the other parts would be helpful too.
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Mostly just need help with
part a, but the other parts would be helpful too.
1....
Question 3 3. Consider a plane pendulum consisting of a mass m suspended by a massless...
Question 3
3. Consider a plane pendulum consisting of a mass m suspended by a massless string of length I. Suppose that that time t-0 the pendulum is put into motion and the length of the string is shortened at a constant rate ot-a (ie. L(t)= Lo-at). Use the angle of the pendulum φ as your generalized coordinate. (a) (2 points) Obtain the Lagrangian and Hamiltonian for this system (b) (0.5 points) Is H conserved? How can you tell? (c)...
I need help with Part A through Part E. The help is greatly appreciated! Electric potential...
I need help with Part A through Part E. The help is
greatly appreciated!
Electric potential of a non-uniformly charged rod 10 points] A non-uniformly charged rod with length L = 10 cm has a charge de = to where (o=1pC/cm) and is centered on the origin of your Sed rod with length L = 10 cm has a charge density and is centered on the origin of your coordinate system as shown below. The point Pis located on the...
01. Answer both parts of this question. Part-1 2D Rigid Body Dynamics The machine shown in...
01. Answer both parts of this question. Part-1 2D Rigid Body Dynamics The machine shown in Figure Q1a comprises an arm AB attached to a rotating joint at point A, which can also be elevated by a hydraulic ram. The arm has mass 100 kg and moment of inertia IG = 10 kgm about mass centre G. A fixed x-y frame is shown with its origin at point A. At the instant shown, the arm is in the horizontal position...
Please derive these equations and break them down into steps . thank you very muvj Pumping from a Standing Position...
Please derive these equations and break them down into steps .
thank you very muvj
Pumping from a Standing Position The pumped swing is modeled as a pendulum with variable length L. The rider is modeled as a point mass m, and L is the distance from the rider's center of mass to the fixed swing support point O. Conservation of angular momentum for a point mass undergoing plane motion is where H is the angular momentum of the body...
please answer all prelab questions, 1-4. This is the prelab manual, just in case you need...
please answer all prelab questions, 1-4.
This is the prelab manual, just in case you need background
information to answer the questions. The prelab questions are in
the 3rd photo.
this where we put in the answers, just to give you an
idea.
Lab Manual Lab 9: Simple Harmonic Oscillation Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and...
I need help with this problem for my electromagnetic engineering class. There are two parts to th...
I need help with this problem for my electromagnetic engineering
class. There are two parts to the problem, please help with
both!
D EE 4301. 501,S19 Exam #2-TSX https://elearning.utdallas.edu/bbcswebdav/pid-2463927-dt-content-rid-63335598-1/courses/21 92-UTDAL-EE-4301-SEC501-25045/EE%204301.501-S19%20Exam%20% ☆ EE 4301.501 .S19 Exam #2 . Take Home, Pdf 4/10 Problem 2 (25 points) Magnetic Boundary Conditions. An infinitely long wire carries current I up the z-axis of a coordinate system. At the x-y plane in the middle of the wire we have the situation shown in the figure...
please help me with drag forces? Part A and B is done. I just need help...
please help me with drag forces?
Part A and B is done. I just need help wit
part E F G and H
PHY241 su19 Assignment about Drag Forces Name Assignment for projectile with drag forces: Parts a and b of this question about an airplane and hanging sphere is from chapter 4 class notes / exploration (answer key is posted for parts a and b). Continue with part c A 100.0 kg sphere hangs from an airplane by a...
Question 6.3 6.3 Consider a double mass-spring system with two masses of M and m on...
Question 6.3
6.3 Consider a double mass-spring system with two masses of M and m on a frictionless surface, as shown in Figure 6.30. Mass m is connected to M by a spring of constant k and rest length lo. Mass M is connected to a fixed wall by a spring of constant k and rest length lo and a damper with constant b. Find the equations of motion of each mass. (HINT: See Tutorial 2.1.) risto M wa ww...
just 18.3 In other words, the center of mass moves as a free particle (no external...
just 18.3
In other words, the center of mass moves as a free particle (no external force) of mass m. The solution for R corre- sponds to uniform straight-line motion, and eliminates three of the six independent variables in the original equations of motion (three components each of, and r. Let us take, as the remaining three independent variables, the three components of r -. To ma- nipulate the original dynamical equations into a single vector equation for r. divide...
just I need ans for 1 (a) and 2(c) don't need remaining please help me in...
just I need
ans for 1 (a)
and 2(c)
don't need remaining please help me in solving the problems
· I. A rocketship of length 100 m when at rest, traveling at u/c = 0.6, carries a radio receiver at its nose. A radio pulse is emitted from a stationary space station just as the tail of the rocket passes the station. (a) From the point of view of the rocket reference frame, how far from the tail does the...
Question 3
3. Consider a plane pendulum consisting of a mass m suspended by a massless string of length I. Suppose that that time t-0 the pendulum is put into motion and the length of the string is shortened at a constant rate ot-a (ie. L(t)= Lo-at). Use the angle of the pendulum φ as your generalized coordinate. (a) (2 points) Obtain the Lagrangian and Hamiltonian for this system (b) (0.5 points) Is H conserved? How can you tell? (c)...
I need help with Part A through Part E. The help is
greatly appreciated!
Electric potential of a non-uniformly charged rod 10 points] A non-uniformly charged rod with length L = 10 cm has a charge de = to where (o=1pC/cm) and is centered on the origin of your Sed rod with length L = 10 cm has a charge density and is centered on the origin of your coordinate system as shown below. The point Pis located on the...
01. Answer both parts of this question. Part-1 2D Rigid Body Dynamics The machine shown in Figure Q1a comprises an arm AB attached to a rotating joint at point A, which can also be elevated by a hydraulic ram. The arm has mass 100 kg and moment of inertia IG = 10 kgm about mass centre G. A fixed x-y frame is shown with its origin at point A. At the instant shown, the arm is in the horizontal position...
Please derive these equations and break them down into steps .
thank you very muvj
Pumping from a Standing Position The pumped swing is modeled as a pendulum with variable length L. The rider is modeled as a point mass m, and L is the distance from the rider's center of mass to the fixed swing support point O. Conservation of angular momentum for a point mass undergoing plane motion is where H is the angular momentum of the body...
please answer all prelab questions, 1-4.
This is the prelab manual, just in case you need background
information to answer the questions. The prelab questions are in
the 3rd photo.
this where we put in the answers, just to give you an
idea.
Lab Manual Lab 9: Simple Harmonic Oscillation Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and...
I need help with this problem for my electromagnetic engineering
class. There are two parts to the problem, please help with
both!
D EE 4301. 501,S19 Exam #2-TSX https://elearning.utdallas.edu/bbcswebdav/pid-2463927-dt-content-rid-63335598-1/courses/21 92-UTDAL-EE-4301-SEC501-25045/EE%204301.501-S19%20Exam%20% ☆ EE 4301.501 .S19 Exam #2 . Take Home, Pdf 4/10 Problem 2 (25 points) Magnetic Boundary Conditions. An infinitely long wire carries current I up the z-axis of a coordinate system. At the x-y plane in the middle of the wire we have the situation shown in the figure...
please help me with drag forces?
Part A and B is done. I just need help wit
part E F G and H
PHY241 su19 Assignment about Drag Forces Name Assignment for projectile with drag forces: Parts a and b of this question about an airplane and hanging sphere is from chapter 4 class notes / exploration (answer key is posted for parts a and b). Continue with part c A 100.0 kg sphere hangs from an airplane by a...
Question 6.3
6.3 Consider a double mass-spring system with two masses of M and m on a frictionless surface, as shown in Figure 6.30. Mass m is connected to M by a spring of constant k and rest length lo. Mass M is connected to a fixed wall by a spring of constant k and rest length lo and a damper with constant b. Find the equations of motion of each mass. (HINT: See Tutorial 2.1.) risto M wa ww...
just 18.3
In other words, the center of mass moves as a free particle (no external force) of mass m. The solution for R corre- sponds to uniform straight-line motion, and eliminates three of the six independent variables in the original equations of motion (three components each of, and r. Let us take, as the remaining three independent variables, the three components of r -. To ma- nipulate the original dynamical equations into a single vector equation for r. divide...
just I need
ans for 1 (a)
and 2(c)
don't need remaining please help me in solving the problems
· I. A rocketship of length 100 m when at rest, traveling at u/c = 0.6, carries a radio receiver at its nose. A radio pulse is emitted from a stationary space station just as the tail of the rocket passes the station. (a) From the point of view of the rocket reference frame, how far from the tail does the...
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