Problem #2: A ballistic of mass m = 0.0100 kg is fired into a wooden hanging block of mass M = 1.00 kg and an inelastic collision occurs. The force of impact causes both masses, now stuck together, to swing up a height, h from the vertical position the ballistic was initially fired at. m Problem #3: If the ballistic was initially fired at a horizontal speed of v = 300 m/s, what is the vertical change in height, h, of m + M after the collision, assuming the masses come to rest temporarily at h? M M+m h A force uses a 60.0 kg mass to compress a spring 5.25 meters across a frictionless surface. If the spring constant k is 25.0 N/m, what will be the maximum speed of the mass if it is released from rest and the spring is allowed to accelerate it?

Problem #2: A ballistic of mass m = 0.0100 kg is fired into a wooden hanging block of mass M = 1.00 kg and an inelastic collision occurs. The force of impact causes both masses, now stuck together, to swing up a height, h from the vertical position the ballistic was initially fired at. m Problem #3: If the ballistic was initially fired at a horizontal speed of v = 300 m/s, what is the vertical change in height, h, of m + M after the collision, assuming the masses come to rest temporarily at h? M M+m h A force uses a 60.0 kg mass to compress a spring 5.25 meters across a frictionless surface. If the spring constant k is 25.0 N/m, what will be the maximum speed of the mass if it is released from rest and the spring is allowed to accelerate it?

Name: Problem #2:A ballistic of mass m = 0.0100 kg is fired into awooden ha
Uploaded: 2024-03-20T06:57:37.000Z
Channel: Bartleby
Description: Problem #2:A ballistic of mass m = 0.0100 kg is fired into awooden hanging block of mass M = 1.00 kg and aninelastic collision occurs. The force of impact causesboth masses, now stuck together, to swing up aheight, h from the vertical position the b

Classical Dynamics of Particles and Systems

5th Edition

ISBN:9780534408961

Author:Stephen T. Thornton, Jerry B. Marion

Publisher:Stephen T. Thornton, Jerry B. Marion

Chapter9: Dynamics Of A System Of Particles

Section: Chapter Questions

Problem 9.35P

See similar textbooks

Related questions

Q: Where did the elements heavier than hydrogen and helium come from?

A: Hydrogen and helium emerged from the Big Bang about 13.8 billion years ago. Other elements were…

Q: Consider a box sitting in the back of a pickup. The pickup accelerates to the right, and because the…

Q: A 5-kg block slides a distance d = 6 m down a rough incline as in the figure with 0 = 49° and v₁ =…

Q: Q12. The tiny distance between slits can be difficult to measure. But you can use the interference…

Q: A racetrack curve has radius 90.0 m and is banked at an angle of 15.0°. The coefficient of static…

Q: In the Bohr model of the hydrogen atom, an electron moves in a circular path around a proton. The…

Q: Can you please help me answer the last three parts of this same problem. Question 4: What is the…

A: Given Data, Mass of torso and legs as a cylinder (M)=52 kg Radius of the cylinder (r)=0.1 m Mass of…

Q: A current loop is shown below. What is the direction of the magnetic field at the center of the…

A: We know for a straight wire, magnetic field curls around the current : And the direction of…

Q: Which of the following forces act on the block perpendicular to the incline? For each force, make…

Q: 5 kg 2 kg

A: m1= 5kg m2 = 2kg

Q: A successful California engineer has installed a circular hot tub in his backyard and finds that,…

Q: The acronym SHM in Chapter 11 stands for Simple Harmonic Motion Senior High Momento Sinusoidal High…

A: The acronym SHM in chapter 11 stand for-- Simple Harmonic Motion

Q: CUIT 2V = 7 70 100 I 0 mA 200 100 mA 100 mA DAY 1, 09:06 PROGRESS: 62% Fill in the missing…

A: In a series circuit the current is the same at any particular point on the circuit and the sum of…

Q: Three small but dense objects are located in the x-y plane as shown in the figure. The objects have…

Q: F₂ = 12.0 N 0 30.0⁰ K2,00 m R F₁ = 8.00 N 3.00 m

Q: A particle travels in a linear path A-B-C. It start from rest at A and reaches B after 2 s. The…

A: Apply the second kinematic equation from A to B to calculate the distance traveled in path AB.…

Q: Can someone please explain the answers again. And have them answered in kg m/s ??

A: Mass of the squash ball, M = 25 g = 0.025 kg Initial velocity up toward the wall at a 40° angle is u…

Q: Q12. The tiny distance between slits can be difficult to measure. But you can use the interference…

A: Below I have provided the solution to the given question.

Q: The nebular theory of the formation of the solar system successfully predicts all but one of the…

Q: 8.00 m long beam with a mass of 8.70 kg is suspended horizontally from a post, as shown. The left…

Q: 13. Atwood's machine is shown in the diagram. They (one is 3 kg and the other is 5 kg) were attached…

Q: Determine the direction of the magnetic field produced at the labeled positions in the given…

Q: The figure shows a 2.38-kg ball attached to one end of an ideal string of length L = 1.24 m. The…

Q: Read the micrometer.

Q: A circular coil of 215 turns has a radius of 1.65 cm. (a) Calculate the current that results in a…

Q: A 1.5 kg block initially at rest, is launched by a horizontal spring with a spring constant of k-175…

Q: A 4 kg box starts up a 30° incline with 128J of kinetic energy. How far will it slide up the incline…

Q: Ball B, moving in the positive direction of an x axis at speed v, collides with stationary ball A at…

A: Apply the momentum conservation equation along the horizontal direction.…

Q: in a disaster movie, an elevator full of people falls freely when the cable snaps. The film depicts…

A: Solution:- Yes ,this is correct. When an elevator full of people falls freely when cable snaps. The…

Q: 5. Give the reason why the acceleration of the rolling ball is less than the acceleration of a…

A: 1. Theoretically speaking, the acceleration vector acts directly downward during free fall. The…

Q: A cylindrically shaped piece of collagen (a substance found in the body in connective tissue) is…

Q: Which of Newton’s laws is responsible for the fact that when a tennis player hits the ball, the…

A: This problem can be resolved by observing the interaction of ball and rocket string while player…

Q: A board that is 20.0 cm wide, 5.00 cm thick, and 3.00 m long has a density 350 kg/m? The board is…

A: Given data: Width = 20.0 cm = 0.200 m Thickness = 5.00 cm = 0.0500 m Length = 3.00 m Density of…

Q: You are an astronaut on a rotating space station. Your station has an inside diameter of 3.00 km…

Q: The mean diameters of X and Y, two planets in the same solar system, are 6.5 x 10³ km and 1.2 x 104…

Q: Below is a diagram showing two blocks joined with a rope that runs over a pulley. The mass m₂ is…

Q: 4) A spacecraft with mass of 6.70 x 10² kg crashes on an asteroid of mass 4.5 x 10² kg. The velocity…

A: mass of spacecraft = 670 kg mass of asteroid = 4.5×109 kg initial velocity of the spacecraft = 6600…

Q: An AC generator consists of eight turns of wire, each having area A = 0.0860 m2, with a total…

Q: A body has 10J of heat energy in a particular state. At the same state it has an internal energy of…

Q: A car with a mass of 1.2x103 kg is skidding to a stop along a horizontal surface. The car…

Q: For a body emitting blackbody radiation, the total power emitted is proportional to the 4th power of…

A: This question is taken from heat transfer chapter

Q: A lighter block (2 kg) and a heavier block (8 kg) sit on a frictionless surface. Both blocks are…

Q: a) A magnetic field B = a sin(by)eb Ê is produced by and electric current, where a and b are…

Q: 24. A grandfather clock has a period of 2.000000 sec when the gravity is 9.799 m/sec². When it is…

Q: the object has a mass of 15kg,the value of the tensions (T1 and T2) are ?

A: Given data: The mass of the object (m) = 15 kg Angle (θ) = 45° Required: The value of the tensions…

Q: (10%) Problem 9: Capacitors C₁ and C₂ are connected, as shown, with voltage source Vo. Let C₁ =3.5…

Q: , A 33-kg girl stands on a 6-kg wagon holding two 14.0-kg weights. She throws the weights…

Q: In the figure battery 1 has emf 81 = 23.0 V and internal resistance r₁ = 0.0172 and battery 2 has…

A: Given: E1 = 23 v r1 = 0.017 Ω E2 = 23 v r2 = 0.012 Ω External…

Q: A thin plastic lens with index of refraction n = 1.72 has radii of curvature given by R1 = −11.5…

Q: 5.13 A box is pushed at a constant velocity 10 m along a floor. The frictional force between the box…

Topic Video

Question

Problem #2:
A ballistic of mass m = 0.0100 kg is fired into a
wooden hanging block of mass M = 1.00 kg and an
inelastic collision occurs. The force of impact causes
both masses, now stuck together, to swing up a
height, h from the vertical position the ballistic was
initially fired at.
If the ballistic was initially fired at a horizontal speed
of v = 300 m/s, what is the vertical change in height,
h, of m + M after the collision, assuming the masses come to rest temporarily at h?
M
Problem #3:
M+m
Page 3
A force uses a 60.0 kg mass to compress a spring 5.25 meters across a frictionless surface. If the spring
constant k is 25.0 N/m, what will be the maximum speed of the mass if it is released from rest and the
spring is allowed to accelerate it?

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 data

VIEW

Step 2: Calculation of the velocity after the collision

VIEW

Step 3: Calculation of the maximum height

VIEW

Step 4: Calculation of the speed of the object

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 5 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Follow-up Questions

Read through expert solutions to related follow-up questions below.

Follow-up Question

I need help on problem #3 as well.

Solution

by Bartleby Expert

SEE SOLUTION

Knowledge Booster

Learn more about

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

Similar questions

Ball having mass 5.5kg and velocity 7.6m/s travels to the east. Impulse given at point O, makes it change direction to north with velocity 4.8 m/s. What is the direction of the given impulse, measured in unit of degrees, if the angle is defined as between the horizontal direction (east) and the impulse?
An object A moving with velocity v collides with a stationary object B. After the collision, A is moving with velocity 2 1 v and B with velocity 3 2 v. Find the ratio of their masses. If, instead of bouncing apart, the two bodies stuck together after the collision, with what velocity would they then move?
Show solution A particle A, of mass 8 kg, collides with a particle B, of mass m2 kg. The velocity of particle A before the collision was 5 m/s and the velocity of particle B before the collision was 2.2 m/s. Given the velocity of particle A after the collision was -4 m/s, and the velocity of particle B was 3 m/s, what was the mass of particle B?
Two balls moving in opposite directions have velocities v1ix= 14ˍm/s and v2ix = -8.4ˍm/s . If their masses are m1 = 3.3ˍkg and m2 = 6.9ˍkg, respectively, and if their collision is perfectly elastic, then predict the velocity of each ball following the collision.
Two masses constrained to move in a horizontal plane collide. Given initially m₁ = 85 gms, m₂ = 200 gms; u₁ = 6.48 cms/sec and u₂= - 6.78 cms/sec, find the veloctiy of centre of mass.
Starting from Newton’s second law of motion, prove that impulse imparted on an object is equal to the change in momentum its momentum. Two masses m1 and m2 with a separation distance of d, attract each with a force F. What is the relationship between the F, m1, m2, and d? By what factor will the force of attraction change if the distance is quadrupled? A 400 kg object moving at a speed of 5 m/s to the right collides with a 600 moving at 2 m/s to the left. After the collision, the 600 kg object moves to the right at a speed of 3 m/s. Determine, the velocity of the 400 kg object after the collision
Prove that in a one-dimensional elastic collision of two equal masses, the particles simply exchange velocities during collisions.
To keep the calculations fairly simple, but still reasonable, we shall model a human leg that is 92.0 cm long (measured from the hip joint) by assuming that the upper leg and the lower leg (which includes the foot) have equal lengths and that each of them is uniform. For a 70.0 kg person, the mass of the upper leg is 8.60 kg, while that of the lower leg (including the foot) is 5.25 kg. Find the location of the center of mass of this leg, relative to the hip joint, if it is (a) fully extended, and (b) bent at the knee to form a right angle with the upper leg.
A smooth sphere A of mass 2m moving with velocity (3i+4j)ms-1 impinges obliquely on another smooth sphere B of same radius but of mass 3m and which is moving with velocity (2i-j)ms-1 ,At the instant of collision ,The line joining the centers of A and B is parrallel to the vector i .Given that the coefficient of restitution between A and B is 2/3 I)Find the speed of A after collision With detailed steps please
Ricardo, of mass 80 kg, and Carmelita, who is lighter, are enjoying Lake Merced at dusk in a 30 kg canoe.When the canoe is at rest in the placid water, they exchange seats, which are 3.0 m apart and symmetrically located with respect to the canoe’s center. If the canoe moves 40 cm horizontally relative to a pier post, what is Carmelita’s mass?
Two identical particles of mass m approach each otherat equal and opposite speeds, v. The collision is completelyinelastic and results in a single particle at rest. What is themass of the new particle? How much energy was lost in thecollision? How much kinetic energy was lost in this collision?
The following figure shows two particles of masses m1 and m2, with velocities before the collision of magnitude v1 and v2. If the collision is perfectly elastic, find the magnitude of the velocities v1' and v2' after the collision and the angle of incidence θ (theta), as a function of the masses and velocities before the collision.