Write an equation relating the value of the conserved quantity (or quantities) before and after the...

What are the major assumptions of Quantity Theory of Money Write down the Equation of Exchange...

What are the major assumptions of Quantity Theory of Money Write down the Equation of Exchange in terms of quantities. Write down the Equation of Exchange in terms of rate of change. If the money supply is increased by 10%, and output did not change, what is the increase in inflation according to the Quantity Theory of Money under the assumption of constant velocity?

Consider the ballistic pendulum diagram shown in the introduction. You may assume that there is no...

Consider the ballistic pendulum diagram shown in the introduction. You may assume that there is no friction or air resistance. After the ball hits and lodges inside the pendulum, and while it is freely swinging, would you expect energy to be conserved in the ball-pendulum system? If yes, write the relevant equation for the conservation of energy here. Define all variables through a labeled diagram. Note that for this and all subsequent questions, you don’t need to solve the equations...

1. Use the quantity theory of money equation to address the following questions. Use the following...

1. Use the quantity theory of money equation to address the following questions. Use the following as initial values: M = $4 trillion, V = 3, P = 1, Y = $12 trillion. (2 points) MV = PY a. All other things being equal, by how much will nominal GDP expand if the central bank increases the money supply to $4.2 trillion and velocity remains constant? Show your work and explain your answer. b. Reset your values to the initial...

1. The general case of an inelastic collision was analyzed in the theory section. In this...

1. The general case of an inelastic collision was analyzed in the theory section. In this question, you will be asked to analyze one specific collision. Show all work for full credit. Assume that the center of the projectile tennis ball is 35 cm below the point of suspension and is released from an angle of 40 degrees with the vertical. Given that the mass of a tennis ball is 57 grams, which is also the mass of the target...

A golf club driver is swung and hits a golf ball. The driver has a shaft...

A golf club driver is swung and hits a golf ball. The driver has a shaft of length L and a head. To simplify the problem, we will neglect the mass of the driver shaft entirely. The driver head we will assume is a uniform density sphere of radius R and mass M. The golf ball is a uniform density sphere of radius r and mass  m. Initially the ball is at rest, with zero linear velocity, v → 2 i...

A student is instructed to perform an experiment to investigate how changing the initial velocity of...

A student is instructed to perform an experiment to investigate how changing the initial velocity of a magnetic marble (A) affects the final velocity after it collides inelastically with a stationary magnetic marble (B) of equal mass on a frictionless table. a. Suggest a way the student could change the velocity of Marble A. b. Suggest a way the student could measure the velocity of the marbles before and after the collision? c. During the experiment, initial and final velocity...

Assume you are given the following equation (Y = 80-20X). The Y value represents Price while...

Assume you are given the following equation (Y = 80-20X). The Y value represents Price while X value represents Quantity demanded for books. In the space below, neatly calculate the values of X when Y are 15, 10, 5, and 0. Work must be shown. Next, with the four data points calculated, neatly construct a graph below by drawing and labeling both axes (Price and Quantity Demanded). Now plot the four coordinates you have calculated from questions 2.a. to draw...

(a) Consider a monopoly market with the following demand equation for a good Z. P =...

(a) Consider a monopoly market with the following demand equation for a good Z. P = 100 – 0.2 Q Suppose fixed cost is zero and marginal cost is given by MC = 20. Answer the following questions. (i) Based on the information given, draw the diagram which shows the marginal revenue (MR) curve, marginal cost (MC) curve and the demand (D) curve of the monopoly. Show the value of X and Y intercepts for these curves. (ii) Explain why...

Step 1: Before the collision, the total momentum is pbefore = mv0 + 0 where m...

Step 1: Before the collision, the total momentum is pbefore = mv0 + 0 where m is the ball’s mass and v0 is the ball’s speed. The pendulum is not moving so its contribution to the total momentum is zero. After the collision, the total momentum is pafter = (m + M) V, where m is the ball’s mass, M is the pendulum mass, and V is the velocity of the pendulum with the ball stuck inside (see the picture...

Momentum and collisions Formula for Oomph An important physical quantity, the name of which we’ll give...

Momentum and collisions Formula for Oomph An important physical quantity, the name of which we’ll give later, corresponds to the intuitive idea of oomph. The more oomph something has, the harder it is to stop, and the more ability it has to knock other things over. Let’s figure out the formula for oomph . A small pebble and a larger rock are thrown at the same speed. Which one has more oomph? Why? The rock is twice as massive as...