Reference no: EM13963250
Impulses and Momentum
When a resultant force acts on an object, the object is accelerated. The acceleration of the object is proportional to the force and inversely proportional to the mass of the object. Algebraically this is expressed as a= F/m, or with the correct selection of units, F= ma. Since we know that acceleration is the rate of change of velocity, or a= dv/dt we can write
F = ma = m*dv/dt or FΔt = mΔv
If the mass remains constant, mΔv = Δ(mv), and we have FΔt = Δ(mv)
The product of an object's mass and its velocity (mv) is known as the momentum, a vector quantity. The product of the resultant force and the time interval during which it acts (FΔt) is known as the inpulse. The relationship above thus states that the change in an object's momentum is equal to the applied impulse.
The Problem
In this experiment we shall allow an "explosion" caused by a compressed spring to push two loaded carts apart. We can measure their masses and the comparative resulting velocities. This enables us to compare their momenta. Knowing their comarative momenta allows us to compare the impulses acting on the two objects and the forces the objects exerted on each other during the explosion.
Comparing the Velocities of the Carts
Our apparatus of two carts, one of which has a spring- actuated plunger. The spring is compressed and the carts are placed together.
The plunger can be released by a trigger, and the explosion causes the carts to fly apart. We shall use a trick to determine their comparative velocities. The carts are attached by a length of string that is slack before the explosion. The carts fly apart and move until the string is pulled tight; they are then abruptly stopped. Since the two carts (represented in the following by subscripts 1 and 2) move for the same length of time, the distances they travel ( s1 and s2 ) away from their starting points must be in the same ratio as their speeds (v1 and v2 ), or v1/v2 = s1/s2
Knowing the masses of the carts, we can calculate the ratio of their momenta after the explosion has occurred.
Making the Measurements
Mark the starting position of the cart with a piece of masking tape on the table top. With another piece of masking tape, mark the position the cart reaches after the explosion. You will want to repeat this several times to make sure that you have marked the correct distance. Place the two carts together in the starting position and mark the original position of the second cart. By placing the first in its final position and pulling the string tight, you can locate the final position of the second cart. You can now measure the distance each cart travels. Repeat this experiment for a variety of combinations of masses of the carts.
Obtaining results from the Data
Compute the ratio of the momenta of the carts. What do the momentum ratios suggest about the comparative magnitudes of the momenta of the carts after the explosion? Recalling that momentum is a vector quality, make a general statement about the total momentum of the combination before the explosion and after the explosion.
Compare the times during which the spring pushed on the carts. Compare the forces on the two carts during the explosion.
Cart 1
|
Mass (g)
|
position
released (cm)
|
position
caught (cm)
|
Displacement (centimeters)
|
Mass*Displacement
|
|
700
|
100
|
|
65.5
|
|
|
1,200
|
100
|
|
41.1
|
|
|
1,700
|
100
|
|
20.7
|
|
|
2,300
|
100
|
|
11.1
|
|
|
2,700
|
100
|
|
4.5
|
|
|
1,700
|
100
|
|
43.1
|
|
Cart 2
|
Mass (g)
|
position
released (cm)
|
position
caught (cm)
|
Displacement (centimeters)
|
Mass*Displacement
|
|
620
|
100
|
|
61.5
|
|
|
620
|
100
|
|
84.7
|
|
|
620
|
100
|
|
106.8
|
|
|
620
|
100
|
|
114.4
|
|
|
620
|
100
|
|
121
|
|
|
1, 620
|
100
|
|
32.6
|
|
Questions
1. If both carts had exactly the same mass in trial 1, how would you expect their velocities to compare with each other? Why?
2. In the two- fragment explosion that results when a gun is fired, explain why the bullet acquires a high velocity while the gun does not.
3. When the spring is released, the rod pushes against one cart with a given force. This cart pushes back with an equal force. Explain why this means that the total force on the system of the two carts is zero.
4. If Ea and Eb are the kinetic energies of the two carts after the spring is released, prove that the ratio Ea /Eb is equal to the ratio mb /ma
|
Cost of capital for the division
: The return on capital in the division is 15 percent, and the corporate tax rate is 40 percent. If the cost of capital for the division is 9 percent, estimate the following:
|
|
Write the function definition as a recursive search
: Write the function definition as a recursive search, assuming a linked list implementation. After you have corrected the function, trace the execution of NumPaths with n = 4 by hand. Why is this algorithm inefficient?
|
|
Relative details of the firms in the drugstore industry
: You have been asked to assess whether Walgreen, a drugstore chain, is correctly priced relative to its competitors in the drugstore industry. The following are the price/sales ratios, profit margins, and other relative details of the firms in the ..
|
|
Find the rrns voltage across the capacitor.
: Find the time averaged output power of the generator in this circuit.
|
|
Explain why the bullet acquires a high velocity
: When the spring is released, the rod pushes against one cart with a given force. This cart pushes back with an equal force. Explain why this means that the total force on the system of the two carts is zero.
|
|
How many distinct exams can she give
: A chemistry professor at ASU has 36 questions that she uses on her exams. Her exams always have 11 questions. How many distinct exams can she give? The order of the questions does not matter.
|
|
Constant-growth dividend discount model
: Briefly discuss three disadvantages of the constant-growth dividend discount model in its application to investment analysis - identify three alternative methods to the dividend discount model for the valuation of companies.
|
|
Appropriate price-sales multiple for longs drug
: Estimate the appropriate price/sales multiple for Longs Drug. The stock is currently trading for $34 per share. Assuming the growth rate is estimated correctly, what would the profit margin need to be to justify this price per share?
|
|
What are the challenges faced by online instructors
: What are the challenges faced by online instructors? What are the required components for the online delivery of education?
|