The graph shows the component of a force acting on an object, in newtons, versus the position of the object, in meters. Find the work done by the force over the specified intervals of displacement:
The graph shows the component of a force acting on an object, in newtons, versus the...
The graph shows the component of a force acting on an object, in
newtons, versus the position of the object, in meters. Find the
work done by the force over the specified intervals of
displacement:
The graph shows the component of a force acting on an object, in newtons, versus the position of the object, in meters. Find the work done by the force over the specified intervals of displacement: a) x;=0.0 m, xf = 4.7 m; 10 Number Wー...
The graph shows the component of a force acting on an object, in newtons, versus the position of the object, in centimeters. Find the work done by the force over the specified intervals of displacement: 10 Number Fx (N) Number c) x 14 m, x 17.9 m: 0 12 3 45799 10 11 12 13 14 15 18 17 18 10 20 Number x (m)
Please answer to the best of your ability with the information
provided.
The graph shows the component of a force acting on an object, in Newtons, versus the position of the object, in centimeters. Find the work done by the force over the 30 cm xf = 90 cm F. (N) 0 1 2 3 $ 6 9 10 11 12 13 14 15 16 17 18 19 20 (cm) 1.0.24J 0.0 36 J C048J
The graph shows the force acting on an object as a function of the position of the object. For each numbered interval given, find the work W, done on the object. 1)from x = 0 m to x = 2.10m 0 x(m) 8 9 10 -2 2) from x 3.00 m to x 5.50 m -6 W2 = 3) from x = 7.00 m to x = 8.70 m
Question 6 of 29 > The graph shows the force acting on an object as a function of the position of the object. For each numbered interval given, find the work W done on the object. 1) from x = 0 m to x = 2.10 m F (N) W = 1 2 3 4 5 6 7 Tx(m) 10 8 9 2) from x = 3.00 m to x = 5.50 m W2 = 3) from x = 7.00...
A force moves an object in the direction of the force. The graph shows the force versus the object's position (a) Find the work done when the object moves from 0 to 2.0 m. (b) If the mass of this object is 1.5 Kg and it started from rest find the final velocity at 2.0 m.
A 20 kg mass starting from rest has position dependent force acting on it. The force is: F(x) = 1000 x^2 + 25000 x – 330, with force in newtons and position in meters. The mass moves from x = 0 to x = 70 cm. Find the work done on the mass by this force. Find the final velocity of the mass. Find the average power produced by the force over a time period of 3 seconds.
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...
A force of F = 4.0 i + 10.0j Newtons moves an object through a displacement of d=-2.0 i +1.0j meters. The object is initially at rest. $ 16. How much work does the force do to the object? P=14.0i)+(10) N =(-2:01+10 g) m (1 kg) 8 J 17. How fast is the object at the end of the displacement? no friction mass 1.0 10kg
Questions 4 and 5
QUESTIONS: 1.Plot a graph of the force acting on the spring versus spring extension. 2. (a) Use the graph to calculate the spring constant including units. () Does the spring obey Hooke's Law over the range of applied forces used? Justify your response. (e) Write the equation for the spring which describes the relationship between extension and applied force to the spring. 3. (a) Use the spring equation to calculate the extension of the spring when...