The 0.5-kg ball of negligible size is fired up the smooth vertical circular track using the spring plunger. The plunger keeps the spring compressed 0.08 m when s=0. Determine how far s (m) it must be pulled back and released so that the ball will begin to leave the track when 0135°. R=2,8 m, k-461 N/m, g=9.81 m/s2². Note: Please write only 2 digits after the comma! H k (N/m) 135 R (m)

The 0.5-kg ball of negligible size is fired up the smooth vertical circular track using the spring plunger. The plunger keeps the spring compressed 0.08 m when s=0. Determine how far s (m) it must be pulled back and released so that the ball will begin to leave the track when 0135°. R=2,8 m, k-461 N/m, g=9.81 m/s2². Note: Please write only 2 digits after the comma! H k (N/m) 135 R (m)

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: all block of mass M equals 2.25 kg is fired with initial speed of loss equals 6 m/s along a…

A: velocity at point A will be calculated by conservation of energy

Q: MN m 0.5 m Each ball has a negligible size and their respective mass are 9-kg and 3-kg. Each ball is…

A: Given: mA=9 kg mB=3 kg r=0.5m M=t2+2 V(t=0s)=9m/s To find: V(t=6s)

Q: The 0.5-kg ball is fired up the smooth vertical circular track using the spring plunger. The »lunger…

A: To Find : The distance pulled back and released. Given : The mass of ball is m=0.5 kg The spring…

Q: A block of mass, M = 25 kg, is at rest on the horizontal. If μₛ = 0.3 and a constant force of 100 Nt…

Q: The fan used to circulate air within a large industrial building is shown in The blade assembly of…

A: The diameter of hub is given as, d=1.5 mR=1.5 m2R=0.75 m The pressure of the fan is given as,…

Q: The 0.5-kg ball of negligible size is fired up the smooth vertical circular track using the spring…

A: The mass of ball is m=0.5 kg Spring Compression = 0.08 m when S = 0 θ =135 ° R = 2.4 m g = 9.81…

Q: A motorcycle and rider have a combined mass of 350kg. The vehicle’s velocity is 100 km/hr. The rider…

Q: The 4 kg collar C has a velocity of 2 m/s at pt. A. The spring constant is 400 N/m. The unstretched…

A: The velocity of the collar at point B is 1.96 m/s. The explanation is given below.Explanation:

Q: Determine the force it must exert on the 0.7-kg smooth cylinder. Express your answer to three…

Q: how much total force does the pulley system shown below apply to the ceiling? the mass hanging from…

A: Ans Given Now draw the FBD of the hanging pulley asNow net force in vertical direction is

Q: The winding drum D is drawing in the cable at an accelerated rate of 4.5 m/s^2. Determine the cable…

A: Given Mass, M = 1000 kg Acceleration, a = 4.5 m/s2 Find Tension in the cable, T

Q: The block has a weight of 76 lb and rests on the floor for which Hk = 0.4. The motor draws in the…

A: Draw the free body diagram. Calculate the distance xB.

Q: A drum is made to revolve about its centre by a falling mass as shown. Calculate the velocity of the…

A: Given:- M=12kg r=0.2m R=0.4m For drum; M=15kg k=0.3 h=10m To find: Velocity, V Angular velocity, ω…

Q: 2. The 200 gram toy car will be compressed against the spring and released to send it around the…

Q: A 10-kg mass is attached to a spring having a spring constant of 140 N/m. The mass is started in…

A: Write the given information.

Q: v(3) = v(6) : A crate of mass m = 10 kg is "lifted" from rest by a rope with a force given by F =…

Q: JOM AVE

Q: A body has an initial linear momentum of (30i + 50j) kgm/s. A force of (6i + 10j) N is applied to…

Question

The 0.5-kg ball of negligible size is
fired up the smooth vertical circular
track using the spring plunger. The
plunger keeps the spring
compressed 0.08 m when s=0.
Determine how far s (m) it must be
pulled back and released so that the
ball will begin to leave the track
when 0 135°. R=2,8 m, k=461
=
N/m, g=9.81 m/s². Note: Please
write only 2 digits after the comma!
k (N/m)
135
R (m)

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: Given

VIEW

Step 2: Calculation of compression of spring when the ball will leave the track at 135°

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

A vertical take-off and landing aircraft has a mass of 9000 kg. A constant upward thrust of 100 kN is applied to it. Determine the vertical distance it will travel when it reaches the velocity of 10 m/s. Clearly write down here what principle or law you use in this problem. Draw FBD of the aircraft here.
thrust can be approximated by the expression T = An aircraft of mass 240,000kg is powered by a jet engine whereby the horizontal 198 +2t², where T is the thrust in kN and t is the time in seconds. If the aircraft has an initial horizontal velocity of 120ms ¹, determine the new horizontal velocity after 12s.
The two springs are identical, withunstretched length 0.4 m. When the 150-kg mass issuspended at B, the length of each spring increases to0.6 m. What is the spring constant k?
A 5-kg small ball is doing circular motion in horizontal plane connected by two strings A and B tothe vertical wall, as shown in Figure 4. Given the speed of the ball 3.5 m/s at the location shown,determine the tensions, TA and TB, in the two strings.
The roller coaster car has a mass of 900 kg, including its passenger. It is released from rest at the top of the hill A. Neglect friction, the mass of the wheels, and the size of the car. Take hp = 19 m, PB = 9.5 m, hc = 14 m, and pc = 7 m. (Figure 1) Figure h hB B hc C BRE 1 of 1 Part A Determine the minimum height of the hill crest so that the car travels around both inside the loops without leaving the track. Express your answer to three significant figures and include the appropriate units. h = Submit Part B NB = Submit Part C 0 Nc = Value Submit What is the normal reaction on the car when the it is at B? Express your answer to three significant figures and include the appropriate units. μᾶ Request Answer Di μA Value Request Answer LO ☛ μA Units What is the normal reaction on the car when the it is at C? Express your answer to three significant figures and include the appropriate units. Value www Request Answer Units ? Units wwwww ? ?
The chute is used to divert the flow of water. The flow is 0.4 m /s and it has a cross-sectional area of 0.03 m?. Neglect the weight of the chute and the water on it 4 m Part A Determine the horizontal force acting on the chute at the roller B, necessary for equilibrium. Express your answer to three significant figures and include the appropriate units. Part B Determine the z component of the force acting on the chute at the pin A, necessary for equilibrium. Express your answer to three significant figures and include the appropriate units. Part C Determine the y component of the force acting on the chute at the pin A, necessary for equilibrium. Express your answer to three significant figures and include the appropriate units.
A 5-kg collar can slide on a frictionless horizontal rod and is attached to a spring of constant k= 125 N/m. It is acted upon by a periodic force of magnitude F = F, cos wt, where Fo= 10 N and w = 5 rad/s. Determine the displacement and velocity of the collar at t = 0.2 s assuming that the initial conditions are zero. F = F, cos wt
Consider the given situation. What is the mass of the woman? BEFORE AFTER m=? m= ? v= v=6 m/s m=40 kg v=3.5 m/s m= 40 kg v=0 m/s O 1.56 kg O 2.68 kg O 3.75 kg O 4.80 kg O 5.91 kg
3
The 5 kg cylinder is released from rest in the postion shown in the figure below. Determine the maximum compression xmax of the spring. The stiffness of the spring is 1800 N/m.
What is the maximum velocity attained by the block as it moves up the ramp? Express your answer to three significant figures with appropriate units.