A varying force is given by F=Ae^?kx, where x is the position; A and k are constants that have units of N and m^?1, respectively.
What is the work done when x goes from 0.10 m to infinity?
Express your answer in terms of the variables A, k, and appropriate constants.
W=
A varying force is given by F=Ae^?kx, where x is the position; A and k are constants that have units of N and m^?1, re...
If F is a position dependent force given by F(x) = Ae-kx, where k is a positive constant, sketch the graphs showing F(t), v(t) and x(t) for v0 = 0 and x0 = 0. Show all salient points on your graphs and the behavior as x approaches infinity.
Constants | Periodic Table Assume that a force acting on an object is given by F = axi + byġ , where the constants a = 2.8 N/m and b = 3.8 N/m. Part A Determine the work done on the object by this force as it moves in a straight line from the origin to ñ = (10.0ả + 22.09)m. Express your answer using two significant figures. ΟΙ ΑΣφ ? W = J
009 10.0 points An applied force varies with position ac cording to F = k12,n-k, where n = 3, k1 = 2.8 N/m, and k2 = 46 N. How much work is done by this force on an object that moves from ri = 4.57 m to rf 28.9 m? Answer in units of kJ.
Assume that a force acting on an object is given by F? =axi^+byj^ , where the constants a = 2.9N/m and b = 4.0N/m . Part A Determine the work done on the object by this force as it moves in a straight line from the origin to r? = (12.0i^ + 21.0j^)m. Express your answer using two significant figures.
Since no "m" term is given, does that mean there is no mass? (10%)5、GIVEN: bx+kx-F=8sin(ar) where b and k ROD: What value of o maximizes the amplitude of the steady state output, x,t) are positive constants and ω > 0 is a constant where x, (t) of course denotes the steady state part of x(t) IINI (10%)5、GIVEN: bx+kx-F=8sin(ar) where b and k ROD: What value of o maximizes the amplitude of the steady state output, x,t) are positive constants and...
Assume the force (in Newtons on an object is given by the function of position F(x)-2 xA3+16, where x is the position (in meters). The object has a mass of 2 kg, what is the work (in Joules) done on the object from x-Orm to ? work done = What is the work (in Joules) done on the object from x=2 m to x=4 m? what is the work (in Joules) done on the objet from x=0 m to x=4...
Constants ? Part A A force in the +x-direction with magnitude F(E) 18.0N (0.530 N/m)z is applied to a 8.50 kg box that is sitting on the horizontal, frictioniless surface of a frozen lake. F() is the only horizontal force on the box. If the box is initially at rest at -0, what is its speed after it has traveled 10.0 m? Express your answer to three significant figures and include the appropriate units. ,.1 Value Units Submit Previous Answers...
A force acting on a particle moving in the x-y plane is given by F=2yi+x^2j N, where x and y are in meters. The particle moves from the origin to a final position having the coordinates x=5 m and y=5 m and shown in the figure above. Calculate the work done by F along (a) OAC, (b) OBC, and (c) OC. (d) Is F a conservative or non-conservative force? Explain?
A force F = (3.10N) î +(7.20N)ị + (7.30 N) k acts on a 6.30 kg mobile object that moves from an initial position à ; = (6.60m) î + (5.40 m)ſ +(3.80 m) Ê to a final position of ds = (6.20m) î +(7.70 m) Î + (3.30 m) î in 8.50 s. Find (a) the work done on the object by the force in the 8.50 s interval, (b) the average power due to the force during that...
(a) A force F = (5xî + 4yĵ), where F is in newtons and x and y are in meters, acts on an object as the object moves in the x-direction from the origin to x = 5.21 m. Find the work W = F · dr done by the force on the object (in J). J (b) What If? Find the work W = F · dr done by the force on the object (in J) if it moves...