One clock uses and oscillating spring; a second clock uses a pendulum. Both are taken to...

1. Suppose that a grandfather clock (a simple pendulum) is running slowly; that is, the time...

1. Suppose that a grandfather clock (a simple pendulum) is running slowly; that is, the time it takes to complete each cycle is greater than it should be. You should shorten the pendulum to make the clock keep correct time. True or False? 2. In principle, the motions of a simple pendulum and an object (oscillating) on an ideal spring can both be used to provide the basic time interval or period used in a clock. Which of the two...

a) If you take a simple pendulum to moon and Venus, how its time period will...

a) If you take a simple pendulum to moon and Venus, how its time period will be affected if its length is 80 cm? b) If you decrease the length of the pendulum to half of the original and increase mass to double of original, what will happen to its period on Earth? c) If an oscillating spring system is taken to the moon, what will happen to its periods? d) If the length of the spring is doubled, what...

We have two oscillators, used to measure time. One is a vertical mass-and-spring system. The other...

We have two oscillators, used to measure time. One is a vertical mass-and-spring system. The other is a simple pendulum. On earth the two systems have the same period. How do their periods compare on the moon? A. Both periods become longer. B. only the pendulum's period becomes longer C. Only the mass-and-spring's period becomes longer D. Neither period changes at all. E. none of the above If a mass hangs from a vertical spring and is moving up and...

Finding the Spring Constant We can describe an oscillating mass in terms of its position, velocity,...

Finding the Spring Constant We can describe an oscillating mass in terms of its position, velocity, and acceleration as a function of time. We can also describe the system from an energy perspective. In this experiment, you will measure the position and velocity as a function of time for an oscillating mass and spring system, and from those data, plot the kinetic and potential energies of the system. Energy is present in three forms for the mass and spring system....

2. A ball of negligible size and a given mass is attached to a vertical spring...

2. A ball of negligible size and a given mass is attached to a vertical spring that obeys Hooke's law. At equilibrium, its position and gravitational potential energy is chosen to be "zero". The mass is set in oscillation in a vertical direction. At what point during the oscillation will the ball-earth-spring system have the most negative gravitational potential energy? A. The gravitational potential energy will be the most negative at its lowest position from the earth. B. The gravitational...

An experimental approach was taken to support the idea that both topoisomerase 2 and the other...

An experimental approach was taken to support the idea that both topoisomerase 2 and the other SAR binding protein bind the bases of the radial loops under more physiological conditions. Around this same time, a completely different experimental approach led to purification of a protein complex that included this second SAR-binding protein as one of its subunits. i) What was this experimental approach? ii)  Using this experimental approach the investigators did a specific experiment whose results suggested  that this protein complex not...

1. A hydraulic lift uses a compressor to compress the hydraulic fluid with a moving piston...

1. A hydraulic lift uses a compressor to compress the hydraulic fluid with a moving piston (piston A) of radius RA = 4.83 cm. A second piston (piston B) of radius RB = 18.48 cm is used at the lift to lift cars. What force must be applied by piston A to lift a 14,871N car with piston B? 2. When a 0.438 kg mass is hung from a certain spring it stretches 0.119 m to its equilibrium position at...

1. Usain Bolt sprints along the track, with his feet pushing down and behind him. Therefore...

1. Usain Bolt sprints along the track, with his feet pushing down and behind him. Therefore the track actually pushes Usain Bolt along the track. Group of answer choices True or False 2.You study two objects in motion, Object J and Object S. Each object has its own velocity graph, with same time and velocity scales. The slope of each graph is positive, upward and to the right  ⁄ but Object J's tilt angle is only 10º and Object S's tilt...

Task 1: Read each of the scenarios. Explain how one or both fit into one of...

Task 1: Read each of the scenarios. Explain how one or both fit into one of the three theories illustrated by the experiments. Be specific using at least two (2) psychological terms (underline/boldface them), the psychologist and his experiment (underline/boldface them), and the evidence that supports or refutes what the experiment theorized. Be sure to illustrate the scenario and the specific parts of the scenarios as they fit into your explanation so I can see your full understanding. Task 2:...

MATH125: Unit 1 Individual Project Answer Form Mathematical Modeling and Problem Solving ALL questions below regarding...

MATH125: Unit 1 Individual Project Answer Form Mathematical Modeling and Problem Solving ALL questions below regarding SENDING A PACKAGE and PAINTING A BEDROOM must be answered. Show ALL step-by-step calculations, round all of your final answers correctly, and include the units of measurement. Submit this modified Answer Form in the Unit 1 IP Submissions area. All commonly used formulas for geometric objects are really mathematical models of the characteristics of physical objects. For example, a basketball, because it is a...