A baseball is thrown from the roof of a 22.0-m-tall building with an initial velocity of magnitude 12.0 m/s and directed at an angle of 53.1° above the horizontal. (a) What is the speed of the ball just before it strikes the ground? Use energy methods and ignore air resistance. (b) What is the answer for part (a) if the initial velocity is at an angle of 53.1° below the horizontal? (c) If the effects of air resistance are included, will part (a) or (b) give the higher speed?
Q: In the figure, a frictionless roller coaster car of mass m = 826 kg tops the first hill with speed…
A:
Q: A 4.3-kg ball is thrown from the top of a 10-m tall building (point A) with a speed of 6 m/s at an…
A: When the ball is at maximum height, the total energy as K.E. is zero ( that's when it is at a 10 m).…
Q: A box is given a push across a horizontal surface. The box has a mass m, the push gives it an…
A: given mass of block, m coefficient of friction = u= 0.140 initial speed , V = 2.40 m/s distance…
Q: A 668 g block is released from rest at height h0 above a vertical spring with spring constant k =…
A: Conservation of mechanical energy, loss in gravitations energy=gain in elastic potential energy.…
Q: A ball is dropped from 13.6 ft above the ground. Assume that air-drag is negligible in this case.…
A: GivenHeight h = 13.6 ftKnownAcceleration due to gravity g = 32.2 ft/s2
Q: A tennis ball with a mass of 0.05 kg is thrown directly upwards. If it initially has 4.7 J of…
A: Initial kinetic energy = 4.7 Joules acceleration due to gravity = 10 m/s2 mass of tennis ball = 0.05…
Q: particle is acted on by a conservative force, F = (-Ax + Bx6)î N, where A and B are constants, and x…
A:
Q: A ball is dropped from 16.2 ft above the ground. Assume that air-drag is negligible in this case.…
A: Given data :- height H = 16.2 ft
Q: In the figure a block slides along a path that is without friction until the block reaches the…
A: Given,L = 0.77 mh = 1.4 mθ = 29°μ = 0.310vA = 8.3 ms
Q: 31. A 0.60-kg basketball is dropped out of a window that is 6.1 m above the ground. The ball is…
A: Hi, as this problem contains multiple sub-parts, hence the first three sub-parts will be solved for…
Q: A 1.90 kg snowball is fired from a cliff 13.5 m high. The snowball's initial velocity is 15.8 m/s,…
A:
Q: (14%) Problem 6: A football of mass m = 1 kg is thrown at an initial velocity of vo = 19 m/s at an…
A: Given data: The mass of the football m = 1 kg. The initial velocity v0 =19 m/s. The angle θ=31°
Q: The figure shows a 3.80-kg box being released from rest to slide down a frictionless track of height…
A:
Q: A football of mass m = 1 kg is thrown at an initial velocity of v0 = 19 m/s at an angle of θ = 45°…
A: The initial horizontal velocity at ground level is: The final horizontal velocity at maximum height…
Q: A 1.10 kg snowball is fired from a cliff 12.9 m high. The snowball's initial velocity of 14.0 m/s,…
A:
Q: The figure below shows a plot of potential energy U versus position x of a .88 kg particle that can…
A: Given: The mass of the particle is m = 0.88 kg The particle released at x = 4.5 m The speed of the…
Q: A 40.0-kg projectile is fired at an angle of 30.0° above the horizontal with an initial speed of…
A:
Q: A crate is given a push across a horizontal surface. The crate has a mass m, the push gives it an…
A: Given mass of the crate = m Initial speed = 3.30 m/s Coefficient of kinetic friction = 0.115 We…
Q: In a roller coaster the ride includes a vertical drop of 120 m. Suppose that the coaster has a…
A: Given, Height of fall,h=120 m Speed at top,u=4 m/s
Q: A 1700 kg car starts up a 130 m long hill at a speed of 20.0 m/s. If the propulsive force (up the…
A: Work done by gravity Wg = -mgh = -1700×9.81×48.1 = -802163.7 J Work done by propulsive force WP =…
Q: A 75-kg skier starts from rest at the top of a hill that makes an angle of 35◦ below the horizontal.…
A:
Q: A projectile of mass m is fired horizontally with an initial speed of v0 from a height of h above a…
A: Given : Mass of a projectile = m Initial speed = vo Initial height = h Final height = 0 because…
Q: The figure here shows a plot of potential energy U versus position x of a 0.894 kg particle that can…
A: As per the guidelines, we can answer only 3 subparts. Please resubmit remaining parts.
Q: What minimum initial kinetic energy must the boy supply to the package?
A:
Q: A 3-kg ball is thrown with a speed of 9 m/s at an unknown angle above the horizontal. The ball…
A:
Q: only along an x axis under the influence of a conservative force. On the graph UA = 9.00 J, = 12.00…
A: The particle is released at the point where UB = 12.00J with kinetic energy 4.00 J. So, the total…
Q: A child of mass m = 25 kg starts from rest and slides without friction from a height h along a slide…
A:
Q: A skier of mass 107 kg travels down a frictionless ski trail. (a) If the top of the trail is a…
A: The given values are, M = 107 kg. H = 186m
Q: A 44.0-kg projectile is fired at an angle of 30.0° above the horizontal with an initial speed of…
A:
Q: A box is given a push across a horizontal surface. The box has a mass m, the push gives it an…
A: A) u = 2.4 m/s B) u = 4.8 m/s
Q: A basketball player throws a basketball m = 1 kg straight up with an initial speed of v0 = 9.5 m/s.…
A: Given,
Q: A baseball is thrown from the roof of h = 21.8-m-tall building with an initial velocity of magnitude…
A:
Q: A skier (m=61.00 kg) starts sliding down from the top of a ski jump with negligible friction and…
A: The mass of the skier: m = 61.00 kg.The height at which the skier jumps off the ramp: h = 6.70 m.The…
A baseball is thrown from the roof of a 22.0-m-tall building with
an initial velocity of magnitude 12.0 m/s and directed at an angle of
53.1° above the horizontal. (a) What is the speed of the ball just before
it strikes the ground? Use energy methods and ignore air resistance.
(b) What is the answer for part (a) if the initial velocity is at an angle
of 53.1° below the horizontal? (c) If the effects of air resistance are
included, will part (a) or (b) give the higher speed?
Trending now
This is a popular solution!
Step by step
Solved in 3 steps
- The figure here shows a plot of potential energy U versus position x of a 0.888 kg particle that can travel only along an x axis. (Nonconservative forces are not involved.) Three values are Ug = 15.0 J, Ug = 35.0 J and Uc = 45.0 J. The particle is released at x = 4.50 m with an initial speed of 7.04 m/s, headed in the negative x direction. (a) If the particle can reach x = 1.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (b) magnitude and (c) direction of the force on the particle as it begins to move to the left of x = 4.00 m? Suppose, instead, the particle is headed in the positive x direction when it is released at x = 4.50 m at speed 7.04 m/s. (d) If the particle can reach x = 7.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (e) magnitude and (f) direction of the force on the particle as it begins to move to the right of x = 5.00 m? Uc UB UA 4 6 x (m) (a) Number Unit (b) Number Unit (c) (d) Number…The figure below shows a plot of potential energy U versus position x of a 0.76 kg particle that can travel only along an x axis. (Nonconservative forces are not involved.) In the graphs, the potential energies are UA = 20.0 J, UB = 35.0 J, and Uc = 45.0 J. Uc UB UA 4 х (m) The particle is released at x = 4.5 m with an initial speed of 6.0 m/s, headed in the negative x direction. (a) If the particle can reach x = 1.0 m, what is its speed there, and if it cannot, what is its turning point? m (b) What are the magnitude and direction of the force on the particle as it begins to move to the left of x = 4.0 m? magnitude direction +X Suppose, instead, the particle is headed in the positive x direction when it is released at x = 4.5 m at speed 6.0 m/s. (c) If the particle can reach x = 7.0 m, what is its speed there, and if it cannot, what is its turning point? m (d) What are the magnitude and direction of the force on the particle as it begins to move to the right of x = 5.0 m? magnitude…Suppose the 50 turn coil in the figure below lies in the plane of the page and originally has an area of 0.230 m². It is stretched to have no area in 0.100 s. X Bin XBin X V What is the direction? clockwise X counterclockwise X X What is the magnitude (in V) of the average value of the induced emf if the uniform magnetic field points into the page and has a strength of 1.75 T? X X 192 X
- The figure here shows a plot of potential energy U versus position x of a 0.878 kg particle that can travel only along an x axis. (Nonconservative forces are not involved.) Three values are UA-15.0J, U₂ - 35.0J and U-45.0 J. The particle is released atx -4.50 m with an initial speed of 7.99 m/s, headed in the negative x direction. (a) If the particle can reach x - 1.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (b) magnitude and (c) direction of the force on the particle as it begins to move to the left of x-4.00 m? Suppose, instead, the particle is headed in the positive x direction when it is released at x -4.50 m at speed 7.99 m/s. (d) If the particle can reach x - 7.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (e) magnitude and (f) direction of the force on the particle as it begins to move to the right of x-5.00 m? U(J) Uc UB UA 2 4 x (m) 6Given: A shooting guard throws a basketball m = 1 kg straight up with an initial speed of v0 = 5.5 m/s. He releases the ball at shoulder height h0 = 1.95 m. Let gravitational potential energy be zero at ground level. Give the total mechanical energy of the ball E in terms of maximum height hm it reaches, the mass m, and the gravitational acceleration g. What is the height, hm in meters?A 1.80 kg snowball is fired from a cliff 12.0 m high. The snowball's initial velocity is 16.4 m/s, directed 27.0° above the horizontal. (a) How much work is done on the snowball by the gravitational force during its flight to the flat ground below the cliff? (b) What is the change in the gravitational potential energy of the snowball-Earth system during the flight? (c) If that gravitational potential energy is taken to be zero at the height of the cliff, what is its value when the snowball reaches the ground? (a) Number (b) Number (c) Number Units Units Units
- A 1.4 kg textbook is thrown out of a window at 8.67 m/s and directed at an angle of 50.1° above horizontal. The window is 6.26 m above the ground. The textbook strikes the ground at a speed of 10.2 m/s. How much work is done on the textbook by air-resistance?The figure here shows a plot of potential energy U versus position x of a 0.876 kg particle that can travel only along an x axis. (Nonconservative forces are not involved.) Three values are UA = 15.0 J, Ug = 35.0 J and Uc = 45.0 J. The particle is released at x = 4.50 m with an initial speed of 7.96 m/s, headed in the negative x direction. (a) If the particle can reach x = 1.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (b) magnitude and (c) direction of the force on the particle as it begins to move to the left of x = 4.00 m? Suppose, instead, the particle is headed in the positive x direction when it is released at x = 4.50 m at speed 7.96 m/s. (d) If the particle can reach x = 7.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (e) magnitude and (f) direction of the force on the particle as it begins to move to the right of x = 5.00 m? UcT UB 4 x (m) (a) Number i Unit (b) Number i Unit (c) (d) Number i…A hurricane wind blows across a 8m x 17m flat roof at a speed of 135 km/h. Calculate the force exerted on the roof. Hint: The thickness of the roof is small, so the change in potential energy between the inside of the house and the outside can be approximated to be zero. ρair =1. 28 kg/ m3 .
- The figure here shows a plot of potential energy U versus position x of a 0.898 kg particle that can travel only along an x axis. (Nonconservative forces are not involved.) Three values are UA = 15.0 J, UB = 35.0 J and Uc = 45.0 J. The particle is released at x = 4.50 m with an initial speed of 7.52 m/s, headed in the negative x direction. (a) If the particle can reach x = 1.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (b) magnitude and (c) direction of the force on the particle as it begins to move to the left of x = 4.00 m? Suppose, instead, the particle is headed in the positive x direction when it is released at x = 4.50 m at speed 7.52 m/s. (d) If the particle can reach x = 7.00 m, what is its speed there, and if it cannot, what is its turning point? What are the (e) magnitude and (f) direction of the force on the particle as it begins to move to the right of x = 5.00 m? Uc UB UA 2 4 x (m) (a) Number i Unit (b) Number i Unit (c) (d)…The figure below shows a plot of potential energy U versus position x of a 0.96 kg particle that can travel only along an x axis. (Nonconservative forces are not involved.) In the graphs, the potential energies are UA = 10.0 J, Ug = 25.0 J, and UC = 35.0 J. (r) Ucr UB 2 4 6 x (m) The particle is released at x = 4.5 m with an initial speed of 8.5 m/s, headed in the negative x direction. (a) If the particle can reach x = 1.0 m, what is its speed there, and if it cannot, what is its turning point? ---Select-- C ---Select- (b) What are the magnitude and direction of the force on the particle as it begins to move to the left of x = 4.0 m? magnitude N direction Suppose, instead, the particle is headed in the positive x direction when it is released at x = 4.5 m at speed 8.5 m/s. (c) If the particle can reach x = 7.0 m, what is its speed there, and if it cannot, what is its turning point? Select CPlease asap