Homework Answers
Add Answer to:
Problem C1: (Conservation of Momentum) Part C (LINEAR MOMENTUM A puck of mass m, = 3kg...
Part C (LINEAR MOMENTUM) Problem CI: (Conservation of Momentum) A puck of mass m, = 3kg...
Part C (LINEAR MOMENTUM) Problem CI: (Conservation of Momentum) A puck of mass m, = 3kg has an initial velocity of 10m/s at 30° S of E. A second puck of mass m, 5kg has a velocity of 5m/s at 45° W of N. They collide and stick together. 30° S he is the the Find the magnitude and direction after collision.
Conservation of Angular Momentum and Linear Momentum A meter stick is motionless on an icy surface...
Conservation of Angular Momentum and Linear Momentum A meter stick is motionless on an icy surface (frictionless). A hockey puck is on a collision course towards the stick. The puck hits the stick at the 30 cm mark and is traveling perpendicular to the length of the stick. After hitting the stick, the puck is deflected 30 degrees from its original trajectory and is traveling at half of its original speed. Mass of a meter stick = 0.30 kg Mass...
14) (Conservation of linear momentum) An air cart of mass m=1 kg and speed vo-Im's moves...
14) (Conservation of linear momentum) An air cart of mass m=1 kg and speed vo-Im's moves toward second identical air cart that is at rest. When the carts collide, they stick together and move as one a) Using the conservation of linear momentum, calculate the velocity ve when the carts stick together (this is also the velocity of the center of mass after collision). b) Calculate the kinetic energy before and after collision. Is the collision elastic Without any calculation,...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10 m/s, on a...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10
m/s, on a level, frictionless air table when it collides with puck
B of mass 160 g traveling at 40° south of west with a speed,
v_Bi=15 m/s, on the same table. (See the diagram below.) When the
pucks collide, they stick together via Velcro surfaces that line
the circular boundaries of both pucks. Find the magnitude and
direction of the momentum of the tandem of pucks...
Introduction: In this lab you will investigate the conservation of linear momentum: momentum before an event...
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,...
Puck A of mass 240-g is traveling due east with a speed, , on a level,...
Puck A of mass 240-g is traveling due east
with a speed, , on a level, frictionless air table when it collides
with puck B of mass 160 g traveling at 40° south of west with a
speed, , on the same table. (See the diagram below.) When the pucks
collide, they stick together via Velcro surfaces that line the
circular boundaries of both pucks. Find the magnitude and direction
of the momentum of the tandem of pucks after the...
Two hockey pucks approach each other as shown in the figure below. Puck 1 has an...
Two hockey pucks approach each other as shown in the figure below. Puck 1 has an initial speed of 19 m/s, and puck 2 has an initial speed of 14 m/s. They collide and some glue on one of the pucks causes them to stick together. (Assume the pucks have the same mass.) (a) If the two pucks form a ''system'' is the momentum of this system along x or y conserved? (b) Find the components along x and y...
Initially, a light puck is moving east at 5.0 m/s and a heavy puck moves south...
Initially, a light puck is moving east at 5.0 m/s and a heavy puck moves south at 3.0 m/s there is velcro on the pucks so they stick together after they collide. If the heavy puck is twice the mass of the light puck then find the magnitude of the momentum vector after they collide. Include a picture.
A 0.32-kg puck at rest on a horizontal frictionless surface is struck by a 0.22-kg puck...
A 0.32-kg puck at rest on a horizontal frictionless surface is struck by a 0.22-kg puck moving in the positive x-direction with a speed of 6.6 m/s. After the collision, the 0.22-kg puck has a speed of 1.6 m/s at an angle of € = 60° counterclockwise from the positive x-axis. (a) Determine the velocity of the 0.32-kg puck after the collision. magnitude After writing a statement of conservation of momentum in the x and y directions, you will have...
1. Two asteroids collide head-on and stick together. Before the collision, asteroid A (mass 1,000 kg)...
1. Two asteroids collide head-on and stick together. Before the
collision, asteroid A (mass 1,000 kg) moved at 100 m/s and asteroid
B (mass 2,000 kg) moved at 80 m/s in the opposite direction. Use
momentum conservation (make a complete Momentum chart) to find the
velocity of the asteroids after the collision.
2. Two asteroids identical to those in (1) collide at right
angles and stick together. "Collide at right angles" means that
their initial velocities were perpendicular to each...
Part C (LINEAR MOMENTUM) Problem CI: (Conservation of Momentum) A puck of mass m, = 3kg has an initial velocity of 10m/s at 30° S of E. A second puck of mass m, 5kg has a velocity of 5m/s at 45° W of N. They collide and stick together. 30° S he is the the Find the magnitude and direction after collision.
14) (Conservation of linear momentum) An air cart of mass m=1 kg and speed vo-Im's moves toward second identical air cart that is at rest. When the carts collide, they stick together and move as one a) Using the conservation of linear momentum, calculate the velocity ve when the carts stick together (this is also the velocity of the center of mass after collision). b) Calculate the kinetic energy before and after collision. Is the collision elastic Without any calculation,...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10
m/s, on a level, frictionless air table when it collides with puck
B of mass 160 g traveling at 40° south of west with a speed,
v_Bi=15 m/s, on the same table. (See the diagram below.) When the
pucks collide, they stick together via Velcro surfaces that line
the circular boundaries of both pucks. Find the magnitude and
direction of the momentum of the tandem of pucks...
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,...
Puck A of mass 240-g is traveling due east
with a speed, , on a level, frictionless air table when it collides
with puck B of mass 160 g traveling at 40° south of west with a
speed, , on the same table. (See the diagram below.) When the pucks
collide, they stick together via Velcro surfaces that line the
circular boundaries of both pucks. Find the magnitude and direction
of the momentum of the tandem of pucks after the...
Two hockey pucks approach each other as shown in the figure below. Puck 1 has an initial speed of 19 m/s, and puck 2 has an initial speed of 14 m/s. They collide and some glue on one of the pucks causes them to stick together. (Assume the pucks have the same mass.) (a) If the two pucks form a ''system'' is the momentum of this system along x or y conserved? (b) Find the components along x and y...
A 0.32-kg puck at rest on a horizontal frictionless surface is struck by a 0.22-kg puck moving in the positive x-direction with a speed of 6.6 m/s. After the collision, the 0.22-kg puck has a speed of 1.6 m/s at an angle of € = 60° counterclockwise from the positive x-axis. (a) Determine the velocity of the 0.32-kg puck after the collision. magnitude After writing a statement of conservation of momentum in the x and y directions, you will have...
1. Two asteroids collide head-on and stick together. Before the
collision, asteroid A (mass 1,000 kg) moved at 100 m/s and asteroid
B (mass 2,000 kg) moved at 80 m/s in the opposite direction. Use
momentum conservation (make a complete Momentum chart) to find the
velocity of the asteroids after the collision.
2. Two asteroids identical to those in (1) collide at right
angles and stick together. "Collide at right angles" means that
their initial velocities were perpendicular to each...
Most questions answered within 3 hours.
-
1. As we are nearing the end of our class, consider how
communication currently plays a...
asked 8 minutes ago -
Webster Corporation is preparing a master budget for the first
quarter of the year. The company...
asked 5 minutes ago -
Classify the countries according to the sign of each countries'
current account balance in 2012.
Current...
asked 8 minutes ago -
risk perception genetically modified foods
(a) What factors seem to be most important in influencing the...
asked 12 minutes ago -
The equilibrium constant for the reaction HNO2 (aq) + H2 O ( ℓ)
↔ NO2¯ (g)...
asked 28 minutes ago -
An investor buys a European put on a share for $3.
The stock price is $42...
asked 17 minutes ago -
Need help making this Java program:
package assignment1;
public class Fibonacci {
// Exercise 1: Fibonacci...
asked 21 minutes ago -
An ancient club is found that contains 140 g of pure carbon and
has an activity...
asked 28 minutes ago -
A grinding wheel is in the form of a uniform solid disk of
radius 7.10 cm...
asked 43 minutes ago -
as licensed professionals doarchitects and enineers have a
responsability to address future conditions ( and future...
asked 42 minutes ago -
A 5Kg block of ice at -10 C is heated until it reaches a
temperature of...
asked 47 minutes ago -
Calculate how many grams of DNA solution you would need to
obtain to load 1.2ug of...
asked 47 minutes ago