2)
A pendulum is made from a 7.50-kilogram mass attached to a rope connected to the ceiling
o...
2)
A pendulum is made from a 7.50-kilogram mass attached to a rope connected to the ceiling
of a gymnasium. The mass is pushed to the side until it is at position A, 1.5 meters higher
than its equilibrium position. After it is released from rest at position A, the pendulum moves
freely back and forth between positions A and B, as shown in the diagram below.
Ceiling
7.50 kg
B
11.5 m
Equilibrium
position
What is the total amount of kinetic energy that the mass has as it swings freely through its
equilibrium position? [Neglect friction.]
Answers: 3
Another question on Physics
Physics, 22.06.2019 00:30
Consider an ordinary, helium-filled party balloon with a volume of 2.2 ft3. the lifting force on the balloon due to the outside air is the net resultant of the pressure distribution exerted on the exterior surface of the balloon. using this fact, we can derive archimedes’ principle, namely that the upward force on the balloon is equal to the weight of the air displaced by the balloon. assuming that the balloon is at sea level, where the air density is 0.002377 slug/ft3, calculate the maximum weight that can be lifted by the balloon. note: the molecular weight of air is 28.8 and that of helium is 4.
Answers: 2
Physics, 22.06.2019 10:30
Awoman holds a book by placing it between her hands such that she presses at right angles to the front and back covers. the book has a mass of m = 1.8 kg and the coefficient of static friction between her hand and the book is μs = 0.67. no attempt 50% part (a) what is the weight of the book, fgb in newtons?
Answers: 3
Physics, 22.06.2019 10:50
Two rigid transformations are used to map δhjk to δlmn. the first is a translation of vertex h to vertex l. what is the second transformation? a reflection across the line containing hk a rotation about point h a reflection across the line containing hj a rotation about point k
Answers: 1
Physics, 22.06.2019 15:30
Identify the correct relation showing that the radius r of the orbit of a moon of a given planet can be determined from the radius r of the planet, the acceleration of gravity at the surface of the planet, and the time τ required by the moon to complete one full revolution about the planet. determine the acceleration of gravity at the surface of the planet jupiter knowing that r = 71 492 km and that t= 3.551 days and r= 670.9 × 10^3 km for its moon europa.
Answers: 2
You know the right answer?
Questions
Mathematics, 03.02.2020 07:45
Physics, 03.02.2020 07:45
Mathematics, 03.02.2020 07:45
Business, 03.02.2020 07:45
Health, 03.02.2020 07:45
History, 03.02.2020 07:45
English, 03.02.2020 07:45
