A roller-coaster car shown in the figure below is pulled up to point 1 where it is released from rest. Take y = 35 m .a) Assuming no friction, calculate the speed at point 2.b) Calculate the speed at point 3.c) Calculate the speed at point 4. The image displays a cross-sectional view of a terrain with varying elevations, labeled 1 through 4. It features two prominent hills:1. **Hill 1**: Position marked at the peak.2. **Valley 2**: Lowest point between the two hills.3. **Hill 3**: Another peak, slightly smaller than hill 1.4. **Point 4**: A smaller elevation compared to point 3.- The height 'y' indicates the elevation of hill 1 from the base.- The right side of the image shows measurements highlighting the difference in height. The total vertical span from the highest point of hill 3 to the base measures 26 meters, with the highest plateau above the ground measuring 14 meters.The diagram illustrates topographical variation and can be used to study elevation changes and terrain analysis.

Answered: Image /qna-images/answer/96881ff8-1d0b-4ffd-a252-695139b85749.jpg

A roller-coaster car shown in the figure below is pulled up to point 1 where it is released from rest. Take y = 35 m . a) Assuming no friction, calculate the speed at point 2. b) Calculate the speed at point 3. c) Calculate the speed at point 4.

A roller-coaster car shown in the figure below is pulled up to point 1 where it is released from rest. Take y = 35 m . a) Assuming no friction, calculate the speed at point 2. b) Calculate the speed at point 3. c) Calculate the speed at point 4.

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Introduction

Section: Chapter Questions

Problem 8P

See similar textbooks

Related questions

Q: A man cleaning a frictionless floor pulls a vacuum cleaner with a force F of magnitude 50 N at an…

A: given , Displacement x = 3m

Q: 17. A child (mc=26.1 kg) on a bicycle (mb=11.2 kg) goes down a hill as shown. 7.6 m 5.6 m He starts…

Q: A-350-kg box is pulled 7.60 m up a 35.0° inclined plane by an external force of 5000 N that acts…

A: Given: Mass=350kg d=7.60m Angle=35 deg External force=5000N Need to find Work done by external…

Q: Let's say the Earth moves around the Sun in a circular orbit with a constant speed (neither is…

A: The correct answer is B. The work done on the Earth is zero, since the force of gravity is always…

Q: The heart does about 1 Joule of work while pumping blood into the aorta during each heartbeat. a.…

A: Using: work done per second = number of heartbeats × power We use…

Q: 2: The only force acting on a 2.0 kg object as it moves along the x axis is given by F, (-2.0 x) N,…

Q: A 6.24-kg snake slithers at constant speed all the way around a circular path of radius 2.37 m. The…

A: Given data: The mass of the snake, m=6.24 kg The radius, r=2.37 m μk=0.32

Q: You lifted 1 kg box from the ground up to the top of a 2 meter long table. Air resistance has…

Q: Consider holding a heavy chair at arm's length for 3 minutes. At the end of this interval, your arms…

A: we can define work as follows: W=Fd Where, F is the force W is the work done D is the displacement

Q: Please give explanation on what's the right answer. On building, as the elevator decelerates…

A: On building, as the elevator decelerates downward The velocity of the elevator is decreasing since…

Q: = 36.0 m, y = 38.2 m, z = 43.2 m a. Assuming the track is frictionless, what is the minimum speed…

Q: a. Calculate the work done (in J) on a 1550 kg elevator car by its cable to lift it 39.5 m at…

A: Given : Mass of the car, m = 1550 kg Friction force, F = 135 N Lifted height of car, h = 39.5 m…

Q: A roller-coaster car shown in the figure below is pulled up to point 1 where it is released from…

A: Part A:Use the conservation of mechanical energy to solve the following part.Since the Sum of the…

Q: 1. Calculate the work done on the suitcase by F→. Express your answer with the appropriate units.…

Q: In the figure, a frictionless roller coaster car of mass m= 906 kg tops the first hill with speed vo…

Q: An object moves along the x axis, subject to the potential energy shown in the figure. (Figure 1)…

Question

A roller-coaster car shown in the figure below is pulled up to point 1 where it is released from rest. Take y = 35 m .

a) Assuming no friction, calculate the speed at point 2.

b) Calculate the speed at point 3.

c) Calculate the speed at point 4.

The image displays a cross-sectional view of a terrain with varying elevations, labeled 1 through 4. It features two prominent hills:

1. **Hill 1**: Position marked at the peak.
2. **Valley 2**: Lowest point between the two hills.
3. **Hill 3**: Another peak, slightly smaller than hill 1.
4. **Point 4**: A smaller elevation compared to point 3.

- The height 'y' indicates the elevation of hill 1 from the base.
- The right side of the image shows measurements highlighting the difference in height. The total vertical span from the highest point of hill 3 to the base measures 26 meters, with the highest plateau above the ground measuring 14 meters.

The diagram illustrates topographical variation and can be used to study elevation changes and terrain analysis.

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

Step 2

Step 3

Step 4

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

6. If a player is standing 30m from the edge of the sideline, what is their vertical height on the grass? 7. At what horizontal distance is the soccer field at and it’s maximum height? What is the mathematical term used to describe the value? Please help me fast All questions In order .
Question 5 Determine the centroid of the shaded area. Interpret the wedge W as a circular sector area and use the information in the table in the back of your study guide or in the back of the textbook. 1.5 cm 1 cm 50 W 2 cm
Q2. Locate the centroid of the plane area shown. 14 in.- 25 in. 5 in 16 in. 5.5 in 10 in 7.5 in
What is the equation for the sphericity of a Raschig ring, given that its inner radius (r1) is less than its outer radius (r2). The Raschig ring has a consistent height (h). Variables to be used: h, r1, and r2.
a. Light Post f h d. A robot holds an upright measuring stick that is 8.00 cm in length and a distance of 20.0 cm from its face. The robot is a distance of 15.0 m from the projection of the top of the lamp post onto the ground. The robot's eye level height is 1.80 m. Use this information to determine the height of the lamp post, filling in the table below with the proper quantities measure in meters. 1= stick length x = stick g = eye level height d = object distance f= object height from h = full object height A = angle from eye level to top of eye level object distance What is the full height in feet?
2. Work with a partner. Use a ball and three rubber bands. a. Construct a great circle on the ball using a rubber band. b. Construct a second distinct great circle. At how many points do the two great circles intersect? Compare this to the number of points at which two distinct lines can intersect in the plane. c. How many great circles can you construct through two points that are not antipodal? Explain.
1- If a person (call them Drew) boards the Ferris wheel from the bottom (ground level, ignoring seat height), how high off the ground is Drew after she has traveled 150 feet around the wheel? 2- Suppose another person (call them Matteo) gets on the wheel. It rotates until Matteo is 218.1 ft above the ground. How many feet did Matteo travel around the wheel? For both questions, draw and label a diagram to visualize the problem. Show each step.
If A = 6i + 4j + 3k and B = 2i – 3j – 3k, find: a. A×B b. A ´ B c. The angle between A and B
A human hair has a thickness of about 85 um. Part A What is this in meters? Express your answer using two significant figures. ? d = m Submit Request Answer Part B What is this in millimeters? Express your answer using two significant figures. ? d = mm
You need to guide a robot from the red dot on the left to the green dot on the right, avoiding the blue walls along the way. units To do this, you must feed it a series of commands of the form "turn degrees and move forward". Angles are measured in degrees, with positive angles turning counterclockwise, and negative angles turning clockwise. All turns are relative to the robot's current direction. The grid marks 1 unit squares. From the red starting dot, with the robot facing directly to the right, issue your commands: (all commands should be given as decimal values) Move 1: Turn 9 Move 2: Turn Move 3: Turn Move 4: Turn degrees and move degrees and move degrees and move degrees and move units forward units forward units forward units forward
Help.!!!
Which of these represents the Volume of a Sphere of Diameter D?