A man is pulling up on a rope which is redirected around a massless frictionless pulley. The box is partially resting on the floor. The elevator is traveling upwards but slowly a) imagine a scale is placed under the box. Which of these forces on the box represents what the scale reads? b) solve for the scale reading w the following values: m=10kg, a=2m/s^2, force of box on rope = 5N, force of box on man = 600N c) what is the 3rd law reaction pair to Force of box on earth in 2 subscript notation?
A man is pulling up on a rope which is redirected around a massless frictionless pulley. The box is partially resting on the floor. The elevator is traveling upwards but slowly a) imagine a scale is placed under the box. Which of these forces on the box represents what the scale reads? b) solve for the scale reading w the following values: m=10kg, a=2m/s^2, force of box on rope = 5N, force of box on man = 600N c) what is the 3rd law reaction pair to Force of box on earth in 2 subscript notation?
Related questions
Question
A man is pulling up on a rope which is redirected around a massless frictionless pulley. The box is partially resting on the floor. The elevator is traveling upwards but slowly
a) imagine a scale is placed under the box. Which of these forces on the box represents what the scale reads?
b) solve for the scale reading w the following values: m=10kg, a=2m/s^2, force of box on rope = 5N, force of box on man = 600N
c) what is the 3rd law reaction pair to Force of box on earth in 2 subscript notation?
![The image depicts a schematic representation of a physics scenario involving a man, a box, and a rope inside an elevator. Below is a detailed description of the elements in the diagram:
1. **Elevator Schematic**:
- A rectangular box represents the elevator, labeled "ELEVATOR FLOOR, F."
- Inside the elevator, there is a figure labeled "MAN, M" depicted as a stick figure standing on the elevator floor.
2. **Rope and Box**:
- A rope, marked as "Rope, R," is shown extending from the ceiling of the elevator.
- The rope is attached to a "BOX, B," which rests on the elevator floor. The box is drawn as a simple rectangular block.
3. **Earth Reference**:
- Below the elevator diagram, there is an oval labeled "EARTH, E," indicating the reference frame for gravitational effects.
This diagram typically illustrates a physics problem related to dynamics, tension, or gravitational forces and is useful for analyzing the forces involved when the elevator moves or is stationary.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F35f20e41-cdb3-47e0-bda7-8aad3be998d4%2Ff86dad0f-7d32-475b-846d-22dbf44be8fd%2Fguys132.jpeg&w=3840&q=75)
Transcribed Image Text:The image depicts a schematic representation of a physics scenario involving a man, a box, and a rope inside an elevator. Below is a detailed description of the elements in the diagram:
1. **Elevator Schematic**:
- A rectangular box represents the elevator, labeled "ELEVATOR FLOOR, F."
- Inside the elevator, there is a figure labeled "MAN, M" depicted as a stick figure standing on the elevator floor.
2. **Rope and Box**:
- A rope, marked as "Rope, R," is shown extending from the ceiling of the elevator.
- The rope is attached to a "BOX, B," which rests on the elevator floor. The box is drawn as a simple rectangular block.
3. **Earth Reference**:
- Below the elevator diagram, there is an oval labeled "EARTH, E," indicating the reference frame for gravitational effects.
This diagram typically illustrates a physics problem related to dynamics, tension, or gravitational forces and is useful for analyzing the forces involved when the elevator moves or is stationary.
Expert Solution
![](/static/compass_v2/shared-icons/check-mark.png)
Step 1
Given:
The mass of the box is .
The acceleration of the elevator moving upward is .
The force on rope due to fox is .
The force on man due to rope is
Step by step
Solved in 2 steps
![Blurred answer](/static/compass_v2/solution-images/blurred-answer.jpg)