When the 0.08-kg body is in the position shown, the linear spring is stretched 8 mm. Determine the force P required to break contactat C. Complete solutions for (a) including the effects of the weight and (b) neglecting the weight.64 mm 64 mm-k = 1550 N/mB36 mm36 mm

When the 0.08-kg body is in the position shown, the linear spring is stretched 8 mm. Determine the force P required to brea at C. Complete solutions for (a) including the effects of the weight and (b) neglecting the weight. P 64 mm 64 mm k = 1550 N/m B 36 mm 36 mm

When the 0.08-kg body is in the position shown, the linear spring is stretched 8 mm. Determine the force P required to brea at C. Complete solutions for (a) including the effects of the weight and (b) neglecting the weight. P 64 mm 64 mm k = 1550 N/m B 36 mm 36 mm

Related questions

Q: A mass m oscillates on an ideal spring. The position as a function of time is shown in the graph…

A: The mathematical expression for frequency is given as, f=number of complete cyclestotal duration

Q: CALC Consider a spring that does not obey Hooke's law very faithfully. One end of the spring is…

A: We are aware that the force Fx=kx-bx2+cx3 operating along the x-axis with an x-component.K has a…

Q: A spring is hung from a ceiling and an object attached to its lower end stretches the spring by a…

A: Given data The distance of the stretched spring is d=25 cm The spring constant is k=30.0 N/m As the…

Q: One type of BB gun uses a spring-driven plunger to blow the BB from its barrel. (a)Calculate the…

Q: Harry is designing the crumple zones in a new car. He decides to model the front end of the car as a…

A: Write the given data.

Q: Four people enter a 2,200 kg car and discover that this compress the car's springs by an additional…

A: (given) Mass (M) of car= 2200 kg Compression (x) of the car's spring…

Q: An ideal spring hangs from the ceiling. A 1.55 kg mass is hung from the spring, stretching the…

A: Solution:At equlllibrium position, we have:mg = kdwhere, m is mass g is acceleration due…

Q: The 14.6-in. spring is compressed to a 7.4-in. length, where it is released from rest and…

A: This is the case of simple harmonic motion. We first find the angular frequency as the acceleration…

Q: A 1.8 kg, horizontal and uniform tray is attached to a vertical ideal spring of force constant 255…

A: A metal spring is moved from its equilibrium position when stretched or squeezed. As a result, it…

Q: A spring is stretched vertically by 0.50 meters when a 15 kg mass is hung from the spring and the…

A: mass = 15 kg stretching in spring = 0.5 m

Q: Find the maximum speed of the resulting SHM ( cm/s). cm/s Submit Answer Incorrect. Tries 6/15…

A: Given: The mass of the object is 1.7 kg. The amplitude of the system is 5.7 cm. The spring constant…

Q: A mass sits on a spring: the spring is attached to the bottom (not the top) of an elevator. Which of…

A: Given, A mass on the spring and are in elevator

Q: An oscillator with a mass of 3.50 kg and spring constant of 45.0 N/m is pushed as shown in Figure 1.…

Q: A block of mass (m=2.00kg) is attached to a spring of force constant k=4.05x10^2 N/m that lies on a…

Q: An ideal spring hangs from the ceiling. A 1.75 kg mass is hung from the spring, stretching the…

A: Mass of the block m=1.75 kg which is hung from a spring which has a equilibrium position at d=0.0925…

Q: The potential energy of an object attached to a spring is 2.60 J2.60 J at a location where the…

A: Given data: Potential energy (U) = 2.60 J Kinetic energy (K) = 1.20 J Amplitude (A) = 16.0 = 0.160…

Q: An ideal spring with a spring constant of 49 N/m is attached to a box of raisins on a frictionless…

A: Given: The spring constant is 49 N/m. The amplitude of the system is 0.78 m. The initial…

Q: The two springs are identical, with unstretched length 0.4 m. When the 50-kg mass is suspended at B,…

Q: Which line, A, B, C, D, E, in the graph correctly shows the relationship between the force produced…

Q: You are asked to design spring bumpers for the walls of a parking garage. A freely rolling (no…

Q: The 12.1-in. spring is compressed to a 7.2-in. length, where it is released from rest and…

Q: An elastic cord is 74 cmcm long when a weight of 72 NN hangs from it but is 80 cmcm long when a…

A: Given data: Initial length (x1) = 74 cm = 0.74 m Initial force (F1) = 72 N Final length (x2) = 80 cm…

Q: Don't use chat gpt

A: The initial potential energy of the package can be calculated using the formula for gravitational…

Q: A 240 gg air-track glider is attached to a spring. The glider is pushed in 11.2 cmcm against the…

Q: Consider the system in (Figure 1). Figure k=5 lb/in. ***** y=2² 1 of 1 > ▾ Part A Determine the…

Q: A block of mass 12.0kg is attached to a horizontal spring. The coefficient of kinetic friction for…

A: The force in the compressed spring should be equal to the force causing the acceleration and the…

Question

When the 0.08-kg body is in the position shown, the linear spring is stretched 8 mm. Determine the force P required to break contact
at C. Complete solutions for (a) including the effects of the weight and (b) neglecting the weight.
64 mm 64 mm-
k = 1550 N/m
B
36 mm
36 mm

Expert Solution

Step 1

Given: The mass of the body is 0.08 kg.

The spring is stretched to 8 mm.

The spring constant is 1550 N/m

To determine: (a) The force P when weight is included

Note: 1 mm is equal to 0.001 m, so 8 mm is equal to 0.008 m.

The formula for spring force is

$F = kx$

where k is the spring constant and x is the stretch on spring

Substitute the values

$F = 1550 N / m \times 0.008 m F = 12.4 N$

The moment is equal to the product of force and perpendicular distance to the pivot point.

The anticlockwise direction is taken as positive and clockwise direction is taken as negative.

Trending now

This is a popular solution!

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

Similar questions

Four people enter a 1,900 kg car and discover that this compress the car's springs by an additional 0.90 cm. Together the people have a mass of 300 kg. (a) If we pretend that the car's suspension consists of one spring, then we can calculate its effective spring constant, k. What is the value of k (in N/m) for this car? (b) The four people exit the car. They push down upon it once and then release it. This causes the car to undergo simple harmonic motion. What is the frequency (in Hz) of this vibrating motion?
Need help with this question please.
WWW N and is A 34.8 kg box is being pulled by a spring to the left. The spring constant of the spring is 560 - т stretched 0.5 m past its relaxed point. There is friction pulling on the box to the right, the coefficient of friction is 0.37. The box is accelerating to the left. What is the weight of the box? Fg= Units: What is the Force of the spring on the box? Fs Units: What is the Normal Force on the box? FN= Units: What is the force of friction on the box? FF= Units: What is the acceleration of the box? a= Units:
The springs of a pickup truck act like a single spring with a force constant of k = 1.15 × 105 N/m Part (a) How many centimeters will the truck be lowered by its maximum load of 920 kg? Part (b) If the pickup truck has four identical springs, what is the force constant of each, in newtons per meter? Assume the allowed compression is the same as in part (a).
An ideal spring hangs from the ceiling. A 2.15 kg mass is hung from the spring, stretching the spring a distance d = 0.0835 m from its original length when it reaches equilibrium. The mass is then lifted up a distance L = 0.0255 m from the equilibrium position and released. What is the kinetic energy K of the mass at the instant it passes back through the equilibrium position? K = J d Equilibrium position www. 14 L Co
A 500-g collar can slide without friction along the semicircular rod BCD. The spring is of constant 320 N/m and its undeformed length is 200 mm. Knowing that the collar is released from rest at B, determine the speed of the collar as it passes through C in m/s. (Hint: be careful in analyzing the stretched length of the spring; use conservation of energy) D r = 150 mm 300 mm 75 mm
The collar of negligible size has a mass of 0.25 kg and is attached to a spring having an unstretched length of 100 mm. If the collar is released from rest at A and travels along the smooth guide, determine its speed just before it strikes B. 400 mm k = 150 N/m 200 mm
Please answer the question correctly
A pendulum is created with a string of length L, fixed at the top. A ball with mass m is fastened to the bottom. The ball is pulled to the side through an angle theta anrd released. What is the speed of the ball at lowest point? L=1.90 Theta=29.0 Mass=600kg
An ideal spring hangs from the ceiling. A 1.65 kg1.65 kg mass is hung from the spring, stretching the spring a distance ?=0.0925 md=0.0925 m from its original length when it reaches equilibrium. The mass is then lifted up a distance ?=0.0315 mL=0.0315 m from the equilibrium position and released. What is the kinetic energy of the mass at the instant it passes back through the equilibrium position?
SSN 11. When a 0.34-kg block is suspended on a vertical spring, it causes it to stretch 3.20 cm. If the block is now pulled 7.80 cm below its equilibrium position and released, what is the speed of the block when it is 1.40 cm above the equilibrium position? m/s 160 ssf60 ssf60 ss of the f60 ssf60* 0 ssf60 ss 09J$$
The springs of a pickup truck act like a single spring with a force constant of k = 1.15 × 105 N/m. Part (a) How many centimeters will the truck be lowered by its maximum load of 960 kg? Part (b) If the pickup truck has four identical springs, what is the force constant of each, in newtons per meter? Assume the allowed compression is the same as in part (a).