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State the condition for equilibrium in terms of newtons
law(Equations)
A) calculate the angel data?
B)...
2. Verification of Newtons Second Law After we did Newton second law experiment the data is...
2. Verification of Newtons Second Law After we did Newton second law experiment the data is shown in Figure below. Mag Slope 0.120 (kgm/s) Use the graph to find Me when Ma -30 g. General Questions 1. A football, a cricket ball, and a tennis ball all fall down in the absence of air resistance. Which of the following is true about their acceleration? The acceleration of the football is greater than the other two b. The acceleration of the...
Given the equations below, calculate the equilibrium constant for the reaction: 2 A(g) + B(g) ⇌...
Given the equations below, calculate the equilibrium constant for the reaction: 2 A(g) + B(g) ⇌ A2B(g)3 A(g) + 3 C(g) ⇌ 3 AC(g) K = 8.02 B(g) + 2 AC(g) ⇌ 2 AB + 2 C(g) K = 25 A2B(g) ⇌A(g) + AB(g) K = 10
differential equations: a mass of 2kg stretches a spring 1m. the mass is in a medium...
differential equations: a mass of 2kg stretches a spring 1m. the mass is in a medium that exerts a viscous resistance of 8 newtons when the velocity of the mass is 2m/sec. the mass is stretched from its equilibrium position 1m and then set in motion with a downward velocity of (3sqrt(3) - 1) m/sec. Let g=10 m/sec^2 a)state and solve the initial value problem for u(t), the displacement of the mass from its equilibrium position b) what is the...
(a) State the kinematic and dynamical conditions for static equilibrium (b) Draw a FBD each for...
(a) State the kinematic and dynamical conditions for static
equilibrium
(b) Draw a FBD each for the 5kg mass and the meeting point of T1,
T2, and T3.
(c) Write down the equations obtained from the FBDs and the
conditions of static equilibrium and solve them to find T1, T2, and
T3.
(d) You are informed that the wires are made of steel. Assuming
that the designer used a safety factor of 10, determine the
diameters of each of the...
A) For the schematic above find the state-space equations that define this system. B) Using the...
A) For the schematic above find the state-space equations that
define this system.
B) Using the controllability rank test determine if this system
is controllable.
C) Using the observability rank test determine if this system is
observable.
1. Controllability and Observability L = 100 m R1 = 10 Ohms Mm R2 = 100 Ohms R4 = 100 Ohms ( = 100 microfarads ult) 1V R3 = 100 Ohms R5 = 100 Ohms Xı = i(t) y = valt) vi(t) =...
TIL O KINETICS AND EQUILIBRIUM Deducing a rate law from initial reaction rate data Seth v...
TIL O KINETICS AND EQUILIBRIUM Deducing a rate law from initial reaction rate data Seth v Some measurements of the initial rate of a certain reaction are given in the table below. [N] [H] initial rate of reaction 2.35 M 1.97 M 93.0 M/S 9.10 M 1.97 M 1.39% 10 M/S 2.35 M 3.77M 178. M/s UTF al Use this information to write a rate law for this reaction, and calculate the value of the rate constant k. Round your...
2. Consider the following physical situation: A spring that obeys Hooke's Law and has a known/given spring constant k has been compressed to half of its equilibrium length. It's anchored at o...
2. Consider the following physical situation: A spring that obeys Hooke's Law and has a known/given spring constant k has been compressed to half of its equilibrium length. It's anchored at one end while the other end pushes (but is not attached to) a block of mass m in the horizontal direction. The block is initially held in place. Once released, the block accelerates to the right and achieves a final speed of ve at the point when it leaves...
I I 34. Solve the following difference equations. State whether the terms are increasing, decreasing, or...
I I 34. Solve the following difference equations. State whether the terms are increasing, decreasing, or oscillating, and whether they are asymptotically convergent to or unbounded and divergent from a value; if so, state that value. 0.4yn-1 +5,9 = 2. (2 marks) (b) y = -1 +3, y = 1. (2 marks)
Suppose the apple market is competitive. a. State the long run equilibrium condition of a typical...
Suppose the apple market is competitive. a. State the long run equilibrium condition of a typical profit-maximizing firm operating in a competitive market. Express your answer using marginal cost and average cost. (2 marks) b. Assume the market for apple is now operating at her long run equilibrium. Draw side-by-side diagrams to show the long run equilibrium conditions for a typical apple farmer and the market for apples. Label your diagrams clearly. (6 marks) c. Recently, there is a fall...
please show steps clearly please also use both forms of newtons 2nd Law to relate both...
please show steps clearly
please also use both forms of newtons 2nd Law
to relate both forms of newtons 2nd Law using a=R(alpha) both
a and alpha must be expressed in a way that makes their magnitudes
positive
-use kinematics for part c
-include an energy diagram when confirming with the energy
approach and assume there is no work done by external forces for
the disk-string-earth system in part d
rotatioll Is LCIU. DU solving a transcendental equation numerically. 41....
2. Verification of Newtons Second Law After we did Newton second law experiment the data is shown in Figure below. Mag Slope 0.120 (kgm/s) Use the graph to find Me when Ma -30 g. General Questions 1. A football, a cricket ball, and a tennis ball all fall down in the absence of air resistance. Which of the following is true about their acceleration? The acceleration of the football is greater than the other two b. The acceleration of the...
(a) State the kinematic and dynamical conditions for static
equilibrium
(b) Draw a FBD each for the 5kg mass and the meeting point of T1,
T2, and T3.
(c) Write down the equations obtained from the FBDs and the
conditions of static equilibrium and solve them to find T1, T2, and
T3.
(d) You are informed that the wires are made of steel. Assuming
that the designer used a safety factor of 10, determine the
diameters of each of the...
A) For the schematic above find the state-space equations that
define this system.
B) Using the controllability rank test determine if this system
is controllable.
C) Using the observability rank test determine if this system is
observable.
1. Controllability and Observability L = 100 m R1 = 10 Ohms Mm R2 = 100 Ohms R4 = 100 Ohms ( = 100 microfarads ult) 1V R3 = 100 Ohms R5 = 100 Ohms Xı = i(t) y = valt) vi(t) =...
TIL O KINETICS AND EQUILIBRIUM Deducing a rate law from initial reaction rate data Seth v Some measurements of the initial rate of a certain reaction are given in the table below. [N] [H] initial rate of reaction 2.35 M 1.97 M 93.0 M/S 9.10 M 1.97 M 1.39% 10 M/S 2.35 M 3.77M 178. M/s UTF al Use this information to write a rate law for this reaction, and calculate the value of the rate constant k. Round your...
2. Consider the following physical situation: A spring that obeys Hooke's Law and has a known/given spring constant k has been compressed to half of its equilibrium length. It's anchored at one end while the other end pushes (but is not attached to) a block of mass m in the horizontal direction. The block is initially held in place. Once released, the block accelerates to the right and achieves a final speed of ve at the point when it leaves...
I I 34. Solve the following difference equations. State whether the terms are increasing, decreasing, or oscillating, and whether they are asymptotically convergent to or unbounded and divergent from a value; if so, state that value. 0.4yn-1 +5,9 = 2. (2 marks) (b) y = -1 +3, y = 1. (2 marks)
please show steps clearly
please also use both forms of newtons 2nd Law
to relate both forms of newtons 2nd Law using a=R(alpha) both
a and alpha must be expressed in a way that makes their magnitudes
positive
-use kinematics for part c
-include an energy diagram when confirming with the energy
approach and assume there is no work done by external forces for
the disk-string-earth system in part d
rotatioll Is LCIU. DU solving a transcendental equation numerically. 41....
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