fill out the table below for the carts for before and after the collision. set the simulation to elastic collision. be careful of the sign of the velocities and momentums. the red cart will have a mass of 3 kg and a velocity of 5 m/s. see diagram to the right. the blue cart will have a mass of 1 kg and a velocity of -5 m/s.
cart
mass (kg)
velocity (m/s)
momentum (kg*m/s)
before collision
red cart
3.0
5.0

blue cart
1.0
-5.0

total

after collision
mass (kg)
velocity (m/s)
momentum (kg*m/s)
red cart

blue cart

total

hint?

Question

fill out the table below for the carts for before and after the collision. set the simulation to elastic collision. be careful of the sign of the velocities and momentums. the red cart will have a mass of 3 kg and a velocity of 5 m/s. see diagram to the right. the blue cart will have a mass of 1 kg and a velocity of -5 m/s.
cart
mass (kg)
velocity (m/s)
momentum (kg*m/s)
before collision
red cart
3.0
5.0

blue cart
1.0
-5.0

total

after collision
mass (kg)
velocity (m/s)
momentum (kg*m/s)
red cart

blue cart

total

hint?

Accepted Answer

# Explanation:
## Step1: Calculate pre-collision momentum (Red)
Momentum = mass × velocity: $p_{red,before} = 3.0\ 	ext{kg} 	imes 5.0\ 	ext{m/s} = 15.0\ 	ext{kg·m/s}$
## Step2: Calculate pre-collision momentum (Blue)
Momentum = mass × velocity: $p_{blue,before} = 1.0\ 	ext{kg} 	imes (-5.0)\ 	ext{m/s} = -5.0\ 	ext{kg·m/s}$
## Step3: Calculate total pre-collision momentum
Sum individual momenta: $p_{total,before} = 15.0 + (-5.0) = 10.0\ 	ext{kg·m/s}$
## Step4: Set post-collision masses
Mass is conserved: $m_{red,after}=3.0\ 	ext{kg}$, $m_{blue,after}=1.0\ 	ext{kg}$
## Step5: Find post-collision velocities (elastic)
Use elastic collision formulas:
For red cart:
$$v_{red,after} = \frac{(m_{red}-m_{blue})v_{red,before} + 2m_{blue}v_{blue,before}}{m_{red}+m_{blue}}$$
$$v_{red,after} = \frac{(3.0-1.0)5.0 + 2(1.0)(-5.0)}{3.0+1.0} = \frac{10 -10}{4} = 0\ 	ext{m/s}$$
For blue cart:
$$v_{blue,after} = \frac{(m_{blue}-m_{red})v_{blue,before} + 2m_{red}v_{red,before}}{m_{red}+m_{blue}}$$
$$v_{blue,after} = \frac{(1.0-3.0)(-5.0) + 2(3.0)5.0}{3.0+1.0} = \frac{10 +30}{4} = 10.0\ 	ext{m/s}$$
## Step6: Calculate post-collision momentum (Red)
Momentum = mass × velocity: $p_{red,after} = 3.0\ 	ext{kg} 	imes 0\ 	ext{m/s} = 0\ 	ext{kg·m/s}$
## Step7: Calculate post-collision momentum (Blue)
Momentum = mass × velocity: $p_{blue,after} = 1.0\ 	ext{kg} 	imes 10.0\ 	ext{m/s} = 10.0\ 	ext{kg·m/s}$
## Step8: Calculate total post-collision momentum
Sum individual momenta: $p_{total,after} = 0 + 10.0 = 10.0\ 	ext{kg·m/s}$

# Answer:
| Category               | Red Cart | Blue Cart | Total |
|------------------------|----------|-----------|-------|
| **Before Collision**   |          |           |       |
| Mass (kg)              | 3.0      | 1.0       | -     |
| Velocity (m/s)         | 5.0      | -5.0      | -     |
| Momentum (kg·m/s)      | 15.0     | -5.0      | 10.0  |
| **After Collision**    |          |           |       |
| Mass (kg)              | 3.0      | 1.0       | -     |
| Velocity (m/s)         | 0.0      | 10.0      | -     |
| Momentum (kg·m/s)      | 0.0      | 10.0      | 10.0  |

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QUESTION IMAGE

Question

Explanation:

Step1: Calculate pre-collision momentum (Red)

Step2: Calculate pre-collision momentum (Blue)

Step3: Calculate total pre-collision momentum

Step4: Set post-collision masses

Step5: Find post-collision velocities (elastic)

Step6: Calculate post-collision momentum (Red)

Step7: Calculate post-collision momentum (Blue)

Step8: Calculate total post-collision momentum

Answer:

Category	Red Cart	Blue Cart	Total
Mass (kg)	3.0	1.0	-
Velocity (m/s)	5.0	-5.0	-
Momentum (kg·m/s)	15.0	-5.0	10.0
After Collision
Mass (kg)	3.0	1.0	-
Velocity (m/s)	0.0	10.0	-
Momentum (kg·m/s)	0.0	10.0	10.0