Physics test 3

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A large wheel is coupled to a wheel with half the diameter. How does the rotational speed of the small wheel compare with that of the larger wheel? How do the tangential speeds at the rims compare (assuming the belt doesn't slip)?

The tangential speeds are equal - same speed as the belt. The smaller wheel rotates twice as fast because for the same tangential speed, and r half, w must be twice. v(big wheel) = rw(small wheel) = (r/2 x 2w)

A softball and a basketball start from rest and roll down an incline. Which ball reaches the bottom first?

The softball because it has the least rotational inertia compared with its mass.

Centripital Force

*Any force that causes a body to move in a circular path *Stands for "center seeking"

Rotational inertia

*Resistance of an object to change its rotational state of motion *The further the mass is from the axis of rotation, the greater the roational inertia

Center of mass

*The average position of all the mass that makes up the object *Things balance at the center mass *For something to be stable, the center of mass has to be over the area of support*

Centrifugal Force

*The feeling ou get being pulled outwad when going around in a circle *Result of rotation

How is the FORCE between two planets altered when they are moved twice as far apart?

*it's 1/4 as much* 2 x = 1/4 3x = 1/9 4x = 1/16 etc

Fast moving projectiles - satelittes

- satellites move at high tangential velocity - earth satellite has a speed of 8 km/sec (85-90 min)

Black Holes

-Stars can collapse into black holes -Center of galaxies have black holes

Simulated Gravity

...

Escape Speed

11.2 km/sec

Universal Gravitational Constant

6.67 x 10^-11 Nm^2/kg^2

A projectile is launched at 20 degrees. At what other angle can the projectile be launched to land in the same placee?

70 degrees

Sitting at the middle of a turntable as it is set spinning and then allowed to spin freely. When you crawl toward the edge of the turntable, does the rate of rotation increase, decrease, or remain unchanged? What physics principle supports your answer?

As you crawl outward, the rotational inertia increases. In accord with the conservation of angular momentum, crawling toward the outer rim increases the rotational inertia of the spinning system and decreases angular speed.

Two golfers each hit a ball at the same speed, but one at 60 degrees with the horizontal and the other at 30 degrees. Which ball goes farther? Which hits the ground first? (Ignore air resistance)

Both balls have the same range. Te ball with the initial projection angle of 30 degrees, however, is in the air for a shorter time and hits the ground first.

If you stopped an Earth satellite dead in its tracks, it would simply crash into Earth. why, then, don't the communications satellites that "hover motionless" abolve the same spot on Earth crash into Earth?

Communication satellites only appear motionless because their orbital period concides with the daily rotation of the Earth

Your friend says that the primary reason astronauts in orbit feel weightless is that they are beyond the main pull of Earth's gravity. Why do you agree or disagree?

Disagree, for the force of gravity on oribiting astronauts is almost as strong as at Earth's surface. They feel weightless because of the absence of a support force.

Newton's law of Universal Gravitation

F = Gm1m2 / d^2

If our sun shrank in size to become a black hole, show from the gravitational force equation that Earth's orbit would not be affected

F ~ m1m2/d^2 , where m2 is the mass of the sun (which doesn't change when forming a black hole), m1 is the mass of the orbiting earth, and d is the distance between the center of mass of earth and the sun. None of these terms change, so the force F that holds earth in orbit doesn't change.

A circularly moving object requires a centripetal foce. What supplies this force for satellites that orbit Earth?

Gravitation supplies the centripetal force on satellites

Is gravitational force acting on a person who falls off a cliff? On an astronaut inside an orbiting space shuttle?

Gravitational force is indeed acting on a person who falls off a cliff, and on a person in a space shuttle. Both are falling under the influence of gravity.

Of all the United States, why is hawaii the most efficient launching site for nonpolar satellites? (look at the spinning earth from above either pole and compare it to a spinning turntable)

Hawaii is closer to the equator, and therefor has a greater tangential speed about the polar axis. This speed could be added to the launch speed of a satellite and thereby save fuel

Another friend says that the Moon's gravity would prevent rocks dropping from the Moon to Earth, but that if the Moon's gravity somehow no longer pulled on its own rocks, then rocks on the moon would fall to earth. What is wrong with this assumption?

If gravity between the Moon and its rocks vanished, the rocks, like the moon, would continue in their orbital path around the Earth. The assumption ignores the law of inertia.

Conservation of Angular Momentum

If there is no external torque, the angular momentum of a system stays the same

Why is it important to secure fil cabinets to the floor, especially cabinets with heavy loads in top drawers?

If you pull open the upper drawers of a fully-loaded file cabinet that isn't secured to the floor, the CG of the cabinet can easily be shifted beyond the support base of the cabinet, causing it to topple over.

If the world's population moved to the North Pole and the South pole, would the 24-hour day become longer, shorter, or stay the same?

In accord with the conservation of angular momentum, if mass moves closer to the axis of rotation, rotational speed increases. So the day would be slightly shorter.

If all of Earth's inhabitants moved to the equator, how would this affect Earth's rotational intertia? How would it affect the length of a day?

Increase rotational inertia, by angular momentum conservation, the rotation of the earth would decrease (just as a skater spins slower with arms outstreched), making days longer

How could an astronaut in a space shuttle "drop" an object vertically to Earth?

It could be dropped by firing it straight backward at the sme speed of the satellite

At what point in its trajectory does a batted baseball have its minimum speed? If air drag can be neglected, how does this compare with the horizontal component of its velocity at other points?

Minimum speed occurs at the top, which is the same as the horizontal component of velocity anywhere along the path.

A friend says that up above the atmosphere, in space shuttle territory, Earth's gravitational field is zero. Explain how your friend has a misconception, and use the equation for gravitational force in your explanation.

Misconception is popular - investigation of the gravitational equation shows that no matter how big the distance, the force never gets to zero.

Which requires more fuel - a rocket going from Earth to the Moon or a rocket coming from the Moon to Earth? Why?

More fuel is required for a rocket that leaves Earth to go to the moon than the other way around. This is because a rocket must move against the greater gravitational field of the earth most of the way. ( If launched from the moon to earth, then it would be traveling with the earth's field most of the way )

Somewhere between Earth and the Moon, gravity from these two bodies on a space pod would cancel. Is this location nearer Earth or the Moon?

Nearer the Moon, because of its smaller mass and lesser pull at equal distances

Comment on whether or not the following label on a consumer product should be cause for concern: CAUTION: The mass of this product pulls on every other mass in the universe, with an attracting orce that is proportional of the masses and inversely proportional to the square of the distance between them.

Nothing to be concerned about on this consumer label. It simply states the universal law of gravitation, which applies to ALL products. It looks like the manufacturer knows some physics and has a sense of humor.

Rotational speed

Number of rotations in a given time interval

When an Earth satellite is placed into a higher orbit, what happens to its period?

Period is greater for satellites farther from earth

Tangential Speed

Speed of an object

Does the fact that one side of the Moon always faces Earth mean that the Moon rotates about its axis (like a top) or that it doesn't rotate about its axis?

The Moon does rotate like a top as it circles Earth. It rotates once per revolution, which is why we only see the same face. If it didn't rotate, we'd see the back side every half month.

Center of Gravity

The average position of weight distribution

A heavy crate falls from a high-flying airplace just as it flies directly above a shiny red Porsche smartly parked in a car lot. Relative to the Porsche, where will the crate crash? (pic pg 189)

The crate will not hit the Porsche, but will crash a distance beyond it determined by the height and speed of the plane.

Gravitational Fields

The influence that a massive body extends into the space around itself, producing a force on another massive body. It is measured in newtons per kilogram

A youngster who has entered a soapbox derby (in which 4-wheel unpowered vehicles roll from rest down a hill) asks if large massive wheels or light weight ones should be used. Also, should the wheel have spokes or be solid?

The light weight solid wheels because they have the least rotational inertia - without spokes (disclike rather than hooplike)

Angular Momentum

The product of Rotational Inertia and Rotational Velocity

Torque

The product of the lever arm and force that tends to produce rotation Torque = lever arm x force

When a satellite in circular orbit slows, perhaps due to the firing of a "retro rocket" it ends up gaining more speed than it had initially, Why?

Upon slowing, it spirals in toward the earth and in doing so has a component of gravitational force in its direction of motion which causes it to gain speed.

Einsteins theory of gravitation

Warping of space by mass

What is the shape of the orbit when the velocity of the satellite is everywhere perpendicular to the force of gravity?

When the velocity of a satellite is everywhere perpendicular to the force of gravity, the orbital path is a circle

Why does a typical helicopter with a single main rotor have a second small rotor on its tail? Describe the consequences if the small rotor fails in flight

Without the small rotor on its tail, the helicopter and the main rotor would rotate in opposite directions. The small rotor provides a torque to offset the rotational motion that the helicopter would otherwise have.

As a car speeds up when rounding a curve, does the centripetal force on the car also increase?

Yes - increased speed at the same radical distance means greater centripetal force. If greater centripetal force isn't applied, the car will skid.

Flamingos are frequently seen standing on one leg with the other lifted. Is rotational inertia enhanced with long legs? What can you say about the bird's center of mass with respect to the foot on which it stands?

Yes, rotational inertia is enhanced with long legs. The bird's foot is directly below the bird's center of mass

Why must you bend forward when carrying a heavy load on your back?

You bend forward to shift the center of gravity of you and the weight of the backpack aboce the area bounded by your feet - otherwise you will fall over backward

Projectile motion

a.) horizontal velocity is constant b.) vertical acceleration is constant (gravity) c.) the horizontal direction and the vertical direction are independent of one another d.) maximum range - 45 degree w/o air - 39-42 degrees w/air

Fragments of fireworks illuminate the sky. a.) what specific path is ideally traced by each fragment? b.) What paths would the fragments trace in a gravity-free region?

a.) the paths are parabolas b.) the paths would be straight lines

At what point in its elliptical orbit about the Sun is the acceleration of Earth at a maximum? At what point is it at a minimum?

maximum where gravitational force is maximum, when earth is closest to the sun, at the perigee. At the apogee, force and accelerate are minimum.


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