What is Springs: Definition and 676 Discussions

Hot Springs is a resort city in the state of Arkansas and the county seat of Garland County. The city is located in the Ouachita Mountains among the U.S. Interior Highlands, and is set among several natural hot springs for which the city is named. As of the 2010 United States Census, the city had a population of 35,193. In 2019 the estimated population was 38,797.The center of Hot Springs is the oldest federal reserve in the United States, today preserved as Hot Springs National Park. The hot spring water has been popularly believed for centuries to possess healing properties, and was a subject of legend among several Native American tribes. Following federal protection in 1832, the city developed into a successful spa town. Incorporated January 10, 1851, the city has been home to Major League Baseball spring training, illegal gambling, speakeasies and gangsters such as Al Capone, horse racing at Oaklawn Park, the Army and Navy Hospital, and 42nd President Bill Clinton. One of the largest Pentecostal denominations in the United States, the Assemblies of God, traces its beginnings to Hot Springs.
Today, much of Hot Springs's history is preserved by various government entities. Hot Springs National Park is maintained by the National Park Service, including Bathhouse Row, which preserves the eight historic bathhouse buildings and gardens along Central Avenue. Downtown Hot Springs is preserved as the Central Avenue Historic District, listed on the National Register of Historic Places. The city also contains dozens of historic hotels and motor courts, built during the Great Depression in the Art Deco style. Due to the popularity of the thermal waters, Hot Springs benefited from rapid growth during a period when many cities saw a sharp decline in building; much like Miami's art deco districts. As a result, Hot Springs's architecture is a key part of the city's blend of cultures, including a reputation as a tourist town and a Southern city. Also a destination for the arts, Hot Springs features the Hot Springs Music Festival, Hot Springs Documentary Film Festival, and the Valley of the Vapors Independent Music Festival annually.

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  1. Z

    Angular momentum and Springs (2 ques)

    I have 2 problems that have been giving a bit of trouble since last night when I gave up on them. I found a similar one to the first one on here but I didn't quite understand the equation that was given. Homework Statement A student sits on a rotating stool holding two 3.0 kg objects. When his...
  2. A

    Springs and simple harmonic motion

    Homework Statement If the initial period is 3.0 s and the mass is reduced to 1/3 of its initial value, what is the new period?Homework Equations Possibly T=2pi*squareroot(m/k)The Attempt at a Solution The solution is something close to 1.73. I have no idea what equation to use, even. Any...
  3. D

    Simple Harmonic Motion with 2 Springs attached to a Dynamics Cart

    I'm trying to write a lab report but I cannot figure out how to derive the formulas for my Theories and Derivations section. Basically, the set-up was this: Two springs were attached to either ends of a dynamics cart. Each spring was then attached to a bumper at either end of the dynamics...
  4. C

    Springs, Simple Harmonic Motion

    1. A 25.0g bullet strikes a .600kg block attached to a fixed horizontal spring whose spring constant is 6.70x10^3 and sets it into vibration with an amplitude of 21.5cm. What is the speed of the bullet before impact if the two objects move together after impact?2. V=A\sqrt{k/m} 3. I used the...
  5. B

    How Does Collision Affect Spring Compression and Motion?

    Homework Statement A block of mass M is resting on a horizontal, frictionless table and is attached as shown above to a relaxed spring of spring constant k. A second block of mass 2 M and initial speed v0 collides with and sticks to the first block. Develop expressions for the following...
  6. E

    What Formulas Can be Used to Calculate Energy and Forces in a Spring Collision?

    1. A guy us riding a tricycle at 33kg at 12m/s when it strikes a spring and is brought to rest in 1.6m. Compute the proportionality constant and explain the type of energy, types of forces, and Hookes law applied 2. F = k(elongation) I am sure there are others. 3. my problem...
  7. J

    Blocks with light springs (q31)

    Blocks with light springs (q31) Hi, I have not idea how to do the following problem(all attempts failed): http://tinyurl.com/28lahv Can somebody help?
  8. D

    How Do You Solve Incline and Spring Problems in Physics?

    Homework Statement A 50 g ice cube can slide without friction up and down a 30 degree slope. The ice cube is pressed against a spring at the bottom of the slope, compressing the spring 10 cm. The spring constant is 25 N/m. When the ice cube is released, what total distance will it travel up...
  9. G

    Help with springs and potential energy problem

    Ok, this seems simple, and it probably is, but I'm just not seeing why I'm getting two non-equivalent solutions... Homework Statement "A massless platform is supported by 4 equal springs (same length, same spring constant, etc.) A mass m is placed on the center of the platform causing an...
  10. H

    Mass Spring Damper system with opposing springs

    I'm sure I must be being a bit dim here, but I can't work this out! I have a mass-spring-damper system, as shown in the attahed picture, in which i have a mass suspended between two springs and dampers, each of which are attached to a fixed surface. he two opposite surfaces are part of the...
  11. S

    Springs and friction and energy, etc.

    Homework Statement A small block of mass m is pressed up against a spring. The spring has constant k and is compressed a distance x. The block slides along a track up and around a loop of radius r and down and out on the far side, as shown. At the top of the loop, the loop exerts a...
  12. J

    How Far Up an Incline Does a Released Spring-Compressed Object Travel?

    Homework Statement A spring with k = 40.0 N/m is at the base of a frictionless 30.0° inclined plane. A 0.50 kg object is pressed against the spring, compressing it 0.4 m from its equilibrium position. The object is then released. If the object is not attached to the spring, how far up the...
  13. C

    Why Do Different Methods of Loading Affect Spring Calculations?

    can someone explain to me how springs work? I already know the equation of elastic pe= 1/2kx^2 but I need more explanation! how come when a mass is dropped from a hanging spring I can multiply the mass by 9.8m/s^2 to get the force, then divide the answer by the spring's constant (20n/cm) then...
  14. K

    How Fast Was the Freight Car Moving Before Hitting the Springs?

    Homework Statement A 8000 kg freight car rolls along rails with negligible friction. The car is brought to rest by a combination of two coiled springs as illustrated in the figure below. Both springs are described by Hooke's law with k1 = 1600 N/m and k2 = 3000 N/m. After the first spring...
  15. O

    Springs connected in series or in parallel?

    Homework Statement Determine the natural frequency of the system in the figure (attached). Assume the pulleys are frictionless and are of negligible mass. Homework Equations k_eq=k_1+k_2 (springs connected in parallel) k_eq=(1/k_1)+(1/k_2) (springs connected in series) omega=sqrt(k/m)...
  16. B

    How Does the Coefficient of Static Friction Affect a Backpack on a Table?

    a 52 N backpack is laying on a table with a spring attached to one side of it where force is applied and the spring stretches. The backpack begins to slide when the spring (k= 150 N/m) stretches by 2.50 cm. What is the coefficient of static friction between the backpack and the table? i set...
  17. A

    Simple Harmonic Motion of springs

    [SOLVED] Simple Harmonic Motion Homework Statement A mass rests on a frictionless horizontal table and is connected to rigid supports via 2 identical springs (which obey Hooke's law). Each spring is stretched to a length (l) considerably greater than its rest length. At rest, the mass is...
  18. K

    Spring Potential Energy involving two springs

    Homework Statement A 10kg mass, attached by means of two springs to the ceiling, is held against the floor and is then released. How fast will it be traveling when it hits the ceiling? The spring constant of each spring is 80 N/m, and each spring has an unstretched length of 1 m. Assume that...
  19. S

    What is the Total Energy of a Spring-Mass System in Vertical Oscillations?

    Homework Statement A mass 'm' is attached to the free end of a spring (unstretched = l) of spring constant 'k' and suspended vertically from ceiling. The spring stretches by Δl under the load andd comes to equilibrium position. The mass is pushed up vertically by "A" from its equilibrium...
  20. N

    Energy & Springs: Find Max Compression & Rebound Distance

    Homework Statement A 2.0 kg package is released on a 53.1◦ incline, 4.0 m from a long spring with force constant 120 N/m that is attached at the bottom of the incline. The coefficient of friction between the package and the incline are µs=0.40 and µk=0.20. The mass of the spring is...
  21. H

    Normal modes, 2 masses, 2 springs

    Homework Statement hey, this is my first time using this forum and was wondering if i could have some help with this normal modes question. suspended from a ceiling is in order: a spring of spring constant (k_{2}), a mass (m), a spring with spring constant (k_{1}), and another mass (m)...
  22. K

    Solving Parallel Spring System with 30N Weight: Step-by-Step Explanation

    Homework Statement In the parallel spring system, the springs are positioned so that the 30 N weight stretches each spring equally. The spring constant for the left hand spring is 3.2 N/cm and the spring constant for the right-hand spring is 6.6 N/cm. The diagram is basically 2 springs...
  23. M

    Lagrangian with springs and rotating wheels

    Homework Statement A cart of mass M rides on four frictionlesly mounted wheels of radius a and mass m'. The top of the cart is sloped at an angle alpha horizontally and a mass m is suspended from the top of the slope of force constant k. m slides without friction up or down the slope. a)...
  24. K

    Why Is Applied Force Plotted on the Vertical Axis in Spring Graphs?

    Does anyone have any idea why applied force is plotted on the vertical axis of the graph even though it is an independant variable?
  25. S

    Springs in series and parallel : Problem for U

    I came across an objective question on the topic 'Springs in series and parallel' .. Have i asnwered it correctly? Q. A Force of 5Kg compresses 2 springs in series by 10 cm. What will be the compression when the same force acts on the same 2 springs but when the springs are in parallel...
  26. J

    How High Was the Plunger Released to Compress the Springs?

    1. An 8-kg plunger is released from rest in the position shown and is stopped by the two nested springs; the constant of the outer spring is k1 = 3kN/m and the constant of the inner spring is k2 = 1-kN/m. If the maximum deflection of the outer spring is observed to be 150mm, determine the height...
  27. D

    Rate at Which 2 Masses & Springs Exchange Energy

    I ran some simulations with a two mass-three springs oscillator. I found that one mass would oscillate for a while and then almost stop. When that happened the other would start moving back and forth. Is there a way I can predict at what rate the masses will exchange energy?
  28. J

    , homework trouble, springs and ocilatory motion

    please help, homework trouble, springs and ocilatory motion! Homework Statement The position of a an air-track cart that is oscillating on a spring is given by (16.5cm)cos[(15.0s-1)t]. At what value t after t=0 is the cart first located at x=4.6 cm? Homework Equations x=Acos[(angular...
  29. BobG

    Directions from Colorado Springs to Milan?

    "Google maps" is great! I can get directions from home to anywhere in the world. Step 29 might be fun...
  30. S

    Do metal springs really store sig work as potential?

    This is a good one. We all know that in an ideal gas, there is no isothermal potential energy stored when you do work on the gas. Compress the gas: all the work appears as heat, and when you cool to ambient, it's all gone. Compressed ideal gas stores no work EXCEPT as heat. Now, less well...
  31. B

    Springs, Masses, and Friction oh mY

    Homework Statement A block with mass M = 5.5 kg rests on a frictionless table and is attached by a horizontal spring (k = 1.5E2 N/m) to a wall. A second block, of mass m = 1.32 kg, rests on top of M. The coefficient of static friction between the two blocks is 0.36. What is the maximum...
  32. A

    How Does Motor Stepping Affect Spring Energy in a Processive Molecular System?

    I am doing a project on tightly-coupled processive molecular motors. My 1D model consists of motors which literally step discrete step sizes of size U while executing a biased random walk along a filament which moves along its longitudinal axis with negligible drag. The motors are attached to a...
  33. A

    Two Hookean Springs Connected in Series

    I was just going through the derivation for the equivalent spring constant of two springs (of different stiffness) connected in series, and I realized that there's one thing I don't understand. In the process of this derivation, it is necessary to write down the net force acting on the point...
  34. B

    Calculating Speed of a Block on a Spring: Friction vs. No Friction

    Help concerning springs. A 2.00 kg block is attached to a spring of force constant 560 N/m as in Figure. The block is pulled 5.95 cm to the right of equilibrium and released from rest. (a) Find the speed of the block as it passes through equilibrium if the horizontal surface is...
  35. T

    Calculating Speed and Distance for a Body on a Stretched Spring

    i added a picture of the problem! when the body is at point A the spring is in relaxed status. it lengths in relaxed statues is 0.6m then a power P =20N is pulling the body to point B AB=0.25m i was asked what is his speed when it reaches point B so i made an equation that the...
  36. D

    Physics problem about springs PLEASE HELP

    A 2 kg block hangs from a spring. A 253g body hung below the block stretches it a further 2.5cm. What's the spring constant? Use g=9.8N/kg. Calculate the value to 1 decimal place and use N/m as your unit. AND A 1.8kg block hangs from a spring. A 221g body hung below the block...
  37. G

    Max Depth of Platform on Spring Calculator

    A wingless fly of mass m sits on top of a platform of mass M supported by a spring of constant k. At time t the fly decides to jump upwards and by doing so, reaches a maximum altitude of 2d above the equilibrium point of the unloaded spring (i.e. the spring without the platform and fly)...
  38. P

    Two Blocks, Springs, and Friction

    Homework Statement This problem has actually been on here twice (with varying numbers) but not yet solved entirely A 30.0-kg block is resting on a flat horizontal table. On top of this block is resting a 15.0-kg block, to which a horizontal spring is attached, as the drawing illustrates. The...
  39. M

    Force & Springs Homework: Find Magnitude of F & Compression of Spring

    Homework Statement A 30.0 kg block is resting on a flat horizontal table. On top of this block is resting a 15.0 kg block, to which a horizontal spring is attached. The spring constant of the spring is 315 N/m. The coefficient of kinetic friction between the lower block and the table is 0.555...
  40. Z

    Spring Stretch in Car Towing: How Far Does the Spring Extend?

    Homework Statement A car towing a 92 kg trailor with a spring between the car and the trailor. the accelertion of the car is .3. the spring constant is 2300 how far is the spring stretched Homework Equations Fs=kx The Attempt at a Solution Fs=kx ma=kx (92)(.3)=2300x x=.012m...
  41. Z

    Solving Springs & Friction Homework

    Homework Statement A 30.0 kg block is resting on a flat horizontal table. On top of this block is resting a 15.0 kg block, to which a horizontal spring is attached. The spring constant of the spring is 325 N/m. The coefficient of kinetic friction between the lower block and the table is...
  42. S

    Gravitational Potential Energy and Springs

    A 520 kg object is released from rest at an altitude of 800 km above the north pole of the earth. Ignore atmospheric friction. The speed of the object as it strikes the earth’s surface, in km/s, is closest to: a.3.7----b. 2.7---c.1.9-----d. 4.0------e. 2.3 Conservation of energy, where...
  43. M

    Horizontal Harmonic motion and Springs

    Hi all, I am having difficulty with a question. I would like some guidance. QUESTION: A block rests on a frictionless horizontal surface and is attached to a spring. When set into simple harmonic motion, the block oscillates back and forth with an angular frequency of 9.5 rad/s. The drawing...
  44. B

    Is Potential Energy Equal at Maximum Height & Max Compression with Springs?

    Alright I am in a high school physics course and my teacher isn't always correct. I asked him if the potential energy for an object at its maximum height after being launched from a spring is equal to that of the potential energy when the object is compressing the spring most(right before it is...
  45. R

    How Fast Does a Block Move on a Spring?

    A 500g block is attached to a 60cm long massless spring with spring constant of 40N/m and is at rest with the back of the block at point A on a frictionless table. A horizontal force of 20N is applied to pull the block towards the right. What is the block's speed when the back of the block...
  46. B

    Find Spring Position After Attaching 2.7kg Mass

    A spring with k = 47 N/m hangs vertically next to a ruler. The end of the spring is next to the 15 cm mark on the ruler. If a 2.7 kg mass is now attached to the end of the spring, where will the end of the spring line up with the ruler marks? I got the answer to be 141 cm because I thought...
  47. T

    Calculate Velocity of 100 lb Block Dropped onto Stiff Spring

    :smile: How do i find the velocity of a block of mass 100 lb being dropped a distance 5 ft onto a spring whose stifness is 100 lbs/ft after the spring has deformed 4 in? im sure it has somthing to do with work of a spring force but i don't know exactly how. any ideas?
  48. D

    Conceptual Problem with Springs and Energy

    Here is the problem, it is simple: An air glider is attached to a massless spring, which is compressed 0.18 m from it's relaxed position. Find the velocity of the glider at its original position, and at 0.25 m. Spring constant is 10 N/m, mass of glider is 0.15 kg. I have solved this...
  49. R

    Particle dropped on platform with spring - Compression of springs

    A massless platform is kept on a light elastic spring. When a particle of mass 100g is dropped on the platform from a hieght of 24cm it strikes the platform and compresses the spring by 1cm. From what hieght should the particle be dropped to cause a compression of 4cm? [text book answer: 396cm]
  50. T

    How Does Friction Affect Spring Oscillations?

    A spring with spring constant k stands vertically, and a mass m is placed on top of it. The mass is gradually lowered to its equilibrium position. With the spring held at this compression length, the system is rotated to a horizontal position. The left end of spring is attached to a wall, and...
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