If the cord at A is cut, determine the reaction at the pin O, when the rod is still in the horizontal position.Determine the reaction at the pin O, when the rod swings to the vertical position. **Educational Content on Reaction Forces**The following exercise involves analyzing the reaction forces in a slender, uniform rod under specific conditions.### Problem StatementThe uniform slender rod depicted in **Figure 1** has a mass of 8.0 kg. You will determine the reaction at the pin \( O \) under two different scenarios.### Part AWhen the cord at point \( A \) is cut, calculate the reaction at the pin \( O \) while the rod is still in a horizontal position.- **Answer Format:** - Use three significant figures. - Include appropriate units.\[F_{oA} = \text{Value} \quad \text{Units}\][Submit Button] [Request Answer Button]### Part BDetermine the reaction at the pin \( O \) when the rod swings into a vertical position.- **Answer Format:** - Use three significant figures. - Include appropriate units.\[F_{oB} = \text{Value} \quad \text{Units}\][Submit Button] [Request Answer Button]### Figure Explanation**Figure 1** illustrates the setup:- A slender rod is supported at a pivot point \( O \).- The rod is initially horizontal with a cord attached at point \( A \).- The distance between point \( O \) and \( A \) is 600 mm.- The distance from \( O \) to the left end of the rod is 200 mm.- A support is located at point \( S \) below \( O \).**Graphical Elements:**- The rod is shown as a straight line.- The pivot and reaction forces are depicted schematically.\[ \text{Provide Feedback} \]This exercise helps in understanding concepts of dynamics, particularly how cutting a support affects forces at a pivot. Ensure that calculations account for the gravitational force acting on the mass of the rod and the change in position of the rod.

Answered: Image /qna-images/answer/20c1576c-c843-4ea8-9212-6b73d2009d97.jpg

Part A If the cord at A is cut, determine the reaction at the pin O, when the rod is still in the horizontal posi Express your answer to three significant figures and include the appropriate units. μÀ FOR = Value Submit Request Answer Units ?

Part A If the cord at A is cut, determine the reaction at the pin O, when the rod is still in the horizontal posi Express your answer to three significant figures and include the appropriate units. μÀ FOR = Value Submit Request Answer Units ?

Related questions

Q: A wheel 32 cmcm in diameter accelerates uniformly from 250 rpmrpm to 370 rpmrpm in 7.0 ss . 1. How…

Q: PROBLEM 2: A vertical pole ABC is supported by hinge at A and wire at B. If a moment is applied at…

Q: CB :BL= GA:AL to show that the cquation is y? = cy - xy + ay – ac. Descartes stated, without proof,…

A: Given: GL is the ruler pivoting at G CNKL is the device that allows L to be moved along AB KN…

Q: B C A m The mass and cable system attached at the ring at A, is kept in equilibrium by the…

Q: The joints of the human body can be studied as levers, as can be the elbow that appears in the…

Q: ents of force at B using scalar notation. b) Determine the magnitude of the normal force the

A: Given figure as,

Q: Suppose that an electric dipole with dipole moment is in a region of a uniform electric field E.…

A: a. The net force on the dipole is not necessarily zero. The force on the positive charge of the…

Q: Complete the following table: table: Example A B C D E F G H I Example Measurement 85 cm 15.2 J 1680…

A: For the given problem, it is very important to know the topic of Units and dimensions. Thought he…

Q: Part (a) Express the torque of F1 on cd, with respect of the axis ef, in terms of F1 and L2. τcd…

Q: No answer from Chat GPT will downvote. Give proper explanation of the correct option and…

A: ANSWER 18. The correct answer is a) Swipe the card more slowly so the reader has more time to read…

Q: In the ride shown, child A sits in a seat attached by a cable of length Z to a freely moving trolley…

Q: an overhead viewof a horizontal bar that can pivot; two horizontal forces act on thebar, but it is…

Q: Same situation as in the previous two problems this time the magnet s mass is 4.19 kg and the…

Q: Knowing that a = 50° and that support boom AC exerts on pin C a force directed along line AC,…

A: Knowing that α=50° and that support boom AC exerts on pin C a force directed along line AC,…

Q: In a region of space, a quantum particle with zero total energy has a wave function given below.…

A: Since the total energy of the system E=0 and let P.E=U Schroedinger equation:- -h22m∂2ψ∂x2+Uψ=…

Q: Give proper step-by-step solution and please notice the given values in the picture. Based on the…

A: 1. Tension in Wire AD (T_AD): - Given that the x-component of the force by AD on D is -110.3 N, we…

Q: In a DVD player the centripetal acceleration is measured to be 100 m/s^2 , at a point that is .02 m…

A: The centripetal acceleration at a point at r distance on a disc from its center can be expressed as…

Q: (c) Electron beams are used to investigate crystal structure. Explain how the de Broglie wavelength…

A: Important aspects that are essential for answering this question are De Broglie hypothesis says…

Q: A single bead can slide with negligible friction on a wire that is bent into a circle of radius 15.0…

A: Equilibrium conditions

Q: I hang 4.00 objects from a mobile, which consists of a 1.20 kg wire 4.00m long. The first object…

A: GivenAs per the question 4 objects from a mobile.Given the mass of the wire is 1.20 kg and it is…

Q: No answer from Chat GPT will downvote. Give proper explanation of the correct option and proper…

A: Option a: This option incorrect because and s-orbital is spherically shaped. It is the p-orbital…

Q: Hi! I'm struggling with this question on my trigonometry homework about linear velocity. Here is the…

A: Angular velocity is define as the angle rotated per unit time. First we find angular velocity in…

Q: R = (T,sin45 – T3sin30)î + (T,cos45 + T3 cos 30 + 525)f 750f = (T,sin45 – T3sin30)î + (T,cos45 + T3…

A: We have given here R = T1sin45-T3sin30i^+T1cos45+T3cos30+525j^ ---- eq 1 and 750j^ =…

Q: Show the derivation of the following Maxwell relations with complete solutions

A: Here we are going to derive the Maxwell relation.

Question

If the cord at A is cut, determine the reaction at the pin O, when the rod is still in the horizontal position.

Determine the reaction at the pin O, when the rod swings to the vertical position.

**Educational Content on Reaction Forces**

The following exercise involves analyzing the reaction forces in a slender, uniform rod under specific conditions.

### Problem Statement

The uniform slender rod depicted in **Figure 1** has a mass of 8.0 kg. You will determine the reaction at the pin \( O \) under two different scenarios.

### Part A

When the cord at point \( A \) is cut, calculate the reaction at the pin \( O \) while the rod is still in a horizontal position.

- **Answer Format:**
- Use three significant figures.
- Include appropriate units.

\[
F_{oA} = \text{Value} \quad \text{Units}
\]

[Submit Button] [Request Answer Button]

### Part B

Determine the reaction at the pin \( O \) when the rod swings into a vertical position.

- **Answer Format:**
- Use three significant figures.
- Include appropriate units.

\[
F_{oB} = \text{Value} \quad \text{Units}
\]

[Submit Button] [Request Answer Button]

### Figure Explanation

**Figure 1** illustrates the setup:
- A slender rod is supported at a pivot point \( O \).
- The rod is initially horizontal with a cord attached at point \( A \).
- The distance between point \( O \) and \( A \) is 600 mm.
- The distance from \( O \) to the left end of the rod is 200 mm.
- A support is located at point \( S \) below \( O \).

**Graphical Elements:**
- The rod is shown as a straight line.
- The pivot and reaction forces are depicted schematically.

\[ \text{Provide Feedback} \]

This exercise helps in understanding concepts of dynamics, particularly how cutting a support affects forces at a pivot. Ensure that calculations account for the gravitational force acting on the mass of the rod and the change in position of the rod.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: step1

VIEW

Step 2: step2

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

Please provide justified answer asap to get a upvote
What other force must be present on the book? What direction is that force?
Find the angular velocity of a clock's second hand and the linear speed and linear acceleration of a point on the second hand 4.91 cm from the rotation axis.angular velocity magnitude direction linear speed linear acceleration magnitude direction
A force P is applied to a small wheel that can move freely on a light wire. Show that there is equilibrium only if =7.5°, and that in the equilibrium state the pulling force of the wire is 82.1% of P.
Q1(..) Please provide justified answer asap to get a upvote
Cannot solve
Please answer all parts correctly within 30 mins ! I will upvote
An audio compact disk (CD) player is rotating at an angular velocity of 32.5 radians per second when playing a track at a radius of 4.0 cm. What is the linear speed at that radius? What is the rotation rate in revolutions per minute?
How is the positive deflection determined?
To solve this question, without any mistakes only typing
I am having trouble with a 3 d motion problem. The problem is as follows, "A point on a rotating turntable 20.0 cm from the center accelerates from rest to a final speed of 0.600 m/s in 1.80 s. At t = 1.29 s, find the magnitude and direction of each of the following." The problem asks me to find the radial acceleration, the tangential acceleration, and the total acceleration of the point. Thanks for the help.
None