2. For an elastic collision, which equation could you use to predict the final velocity of...
In which type of collision is it possible for the final velocity of both cars to be zero? Elastic Collision of Carts with Equal Masses Elastic Collision of Carts with Unequal Masses Perfectly Inelastic Collision of Carts with Equal Masses O Perfectly Inelastic Collision of Carts with Unequal Masses O Explosion All of the above None of the above Question 3 (0.2 points) In which type of collision is the net momentum of the system of cars conserved? Elastic Collision...
1) Why is there a different equation for elastic vs inelastic collisions? Are they really different? 5) If the first car does not go through either photogate after collision, what will its velocity essentially be? The conservation of momentum is a fundamental law in classical mechanics. It states that the total momentum of a system at the initial condition and ending conditions must be equivalent or p. - P. This can be modeled by studying the effect of objects in...
NUMBER 3 PLEASE!! I do not quite understand how to get to the final answer, if you can, please explain steps! Before the collision Cart A Cart B Cart A, with an inertia ma, and Cart B, with an inertia ma, are on a level track with negligible friction. In the Earth reference frame, Cart A, initially moving to the right with a velocity VEAj collides with Cart B, initially moving to the left with a velocity Vedi as shown...
Background Info: In this experiment you will observe and analyze elastic and inelastic collisions in one dimension and in two dimensions. You will measure the final momentum of a system after it explodes. You will see how both kinds of collision affect the kinetic energy of a system that consists of two frictionless carts. You will determine the momentum of two carts after they collide when one cart is initially stationary. You will analyze the results qualitatively as well as...
Activity 4c: Analyzing Equations for Elastic Collisions Our textbook claims (without deriving, due to some "straightforward but messy algebra”) that we can predict the velocities of the two carts after an elastic collision with a relatively simple formula: V1.5 = (mi - m2 V11 \m₂ + m₂ (Equation 1) V2.5 = 2mi V1, \mi + m2 (Equation 2) where subscripts 1 and 2 refer to the first cart and the second cart, respectively, i and frefer to the time before...
Introduction: In this lab you will investigate the conservation of linear momentum: momentum before an event equals momentum after an event if there is an absence of a non-conservative forces such as friction. The event is this case is a collision between two air track gliders. Two types of collisions will be studied. One is an elastic collision which will not be studied in this lab. after the collision. The second is an inelastic collision where after two objects collide,...
anyone please help me solve the last part to find theortetical of V1 and V2 using the first page type of collision thank you 4. Cartl has a mass of ml and a velocity of v0. Cart2 has a mass of m2 and is stationary. Cartl then hits cart 2. After the collision, the velocity of cartl is vl and the velocity of cart2 is v2. In any collision, what happens to the m Write an equation for the momentum...
The figure below show three masses m1=1.7 kg, m2=2.9 kg, and m3=4.5 kg which undergo two successive collisions. The first collision between m1, which has an initial velocity v=7.9 m/s, and m2 (which is initially at rest) is completely inelastic. The second collision between the combined mass m1+m2 and m3 (which is initially at rest) is elastic. What is the velocity of m3 after the second collision? (use figure in picture, but answer question above) The figure below show three...
Impulse and Momentum Name: Date: TA's Name: Learning Objectives: 1. Understanding force ys time curves for a collision. 2. Calculating impulse using force vs. time curves. 3. Understanding the relationship between impulse and momentum. 4. Applying conservation of momentum for inelastic collisions. Apparatus: Aluminum track, track legs, two smart carts, two cart stops, and small black rectangular cart masses. Part A: Collision of a moving cart with a fixed cart cart 1 Cart stop stationary cart cart stop Consider the...
Miner EVALUATION OF DATA Part 1 Elastic collisions You can use the table below to belowigur valuation of the moment heure d che collisions of this e Final Velocity R asta Veloc 991 4125 1510 2 LOL 3510 1.510 5 .510 O 0233 ut2 tl volocity (m/s) 510 1.5.10 ILOI OL 10 1.50 -199 4105 332 LIG 1841 1841 205 289 -.038 Ratio Before poch /s) un po cart k m ) 1.2005 - o ty hom [ m/s) pot...