28. A container filled with water is placed in an elevator. When the elevator is at rest, a small block floats in the water with 50% of its volume submerged.

 

 

If the elevator accelerates up with a constant acceleration of 0.1g, what percentage of the block’s volume will be submerged? Treat water as an incompressible fluid.

29. M_A has a mass of 10 kg and slides to the right at 3 m/s across a level, frictionless surface towards M_B that has a mass of 6 kg and is initially at rest. There is a massless, ideal spring with k = 540 N/m on the left side of M_B. The spring is initially compressed and held so that it will not release until the impact with M_A. After the collision, M_A is a rest.

 

 

How far was the spring compressed from its natural length in meters?

30. The diagram below shows an inverted test tube over a sample of a radioactive material. Helium has collected in the test tube.

 

 

The presence of helium indicates that the sample is most probably undergoing the process of

31. A mass, m =1.0 kg, is pulled on a horizontal table by a force F = 2 N, directed to the right. A small kinetic friction force F_friction = 1 N acts on the mass while it is being pulled and the mass accelerates to the right with an acceleration, a₁ = 1 𝑚/𝑠². The system then undergoes two changes:

 

 

Which of the following statements about the new acceleration, a₂, is correct?

32. The diagram below shows a ball rolling down an incline.

 

 

The direction of the normal force that the incline exerts on the ball is…

35. An airplane is flying in a vertical loop.

 

 

At the bottom of the loop, the forces on the pilot are such that…

36. A solid disk of mass, M, moment of inertia, I, and radius, R, is at rest with its circular face on a horizontal, frictionless table as shown in this overhead view.

 

 

A rope is wrapped around the disk tightly and pulled with a force of T. The disk moves linearly and rotationally as the force, T, accelerates the disk along the table. After the disk has accelerated some distance, determine the ratio of the translational Kinetic Energy to the total Kinetic Energy of the disk. (KE_{translational} /KE_total)

37. The graph shows the momentum of a particle as a function of time.

 

What net impulse acted on the particle from t = 0.0 sec to t = 9.0 sec?

39. The diagram shown represents an N-type silicon semiconductor connected to a battery. A very small amount of antimony, which has five valence electrons, had previously been added to the silicon crystal. This process produced

 

40. A container of ideal gas undergoes a Carnot heat engine cycle in the order shown below.

 

 

The gas has returned to its original state at the end of the cycle. Let Q_n represent the amount of heat exchanged on process n. Which of the following correctly calculates the efficiency of this engine?

All Division I students, STOP HERE.
All Division II students continue questions #41 through #50.
*** Treat g = 10 m/s² in ALL problems, #1-#50.

 

41. The transverse wave shown below is traveling from left to right in a string.

 

 

The direction of the velocity of the string at point P is:

42. An electromagnetic wave has a magnetic field given by the expression (in Cartesian coordinates)

 

 

At time 𝑡 = 0 and position 𝑥 = 𝑦 = 𝑧 = 0, what is the direction of the electric field associated with this wave?

44. An object with mass M moves due East on a frictionless horizontal surface with a speed of V. A second object of mass (1/2) 𝑀 has a speed of 3V. The two objects collide and stick together. If the objects are moving due South after the collision, with what speed are they moving?

45. The following expressions are non-mks units in physics. Identify the physical quantity that can be measured with the following units:

 

(1) GeV, (2) GeV/c, (3) GeV/c2

47. Which of the following statement(s) can be associated with Bohr’s theory of the atom?

 

49. Point charges +q and –q are fixed in place on the x-axis at x = +d and x = -d, respectively.

 

At x = 0, their Net Electric Field _______ and their Total Electric Potential _______.

50. A waterproof speaker placed at the bottom of a swimming pool emits a sound wave that travels toward the surface of the water. In the water, the sound wave has a frequency, f_water, a wavelength, λ_water, and wave speed, v_water. When the sound wave enters the air, it has a frequency, f_air, a wavelength, λ_air, and a wave speed, v_air.

 

Which one of the following relationships correctly compares the frequencies, wavelengths, and wave speeds of the waves in the air and water?