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Review Session Final exam Honors Physics The diagram below shows a student throwing a baseball horizontally at 25 meters per second from a cliff 45 meters above the level ground. [Neglect air resistance.] (a) How long is the ball in the air? Given Formula Set-Up Solution (b) Approximately how far from the base of the cliff does the ball hit the ground? Given Formula Set-Up Solution (c) How fast is the ball traveling vertically when it strikes the ground? Given Formula Set-Up Solution An athlete hits a golfball with an initial velocity of 7 m/s at a 30° angle from the horizontal. a. Determine the x and y components of the initial velocity. Given Formula Set-Up Solution Set-Up Solution Set-Up Solution b. Determine how long the ball is in the air. Given Formula c. Calculate the distance the ball traveled. Given Formula The diagram below shows a moving, 5.00-kilogram cart at the foot of a hill 10.0 meters high. (a) For the cart to reach the top of the hill, what is the minimum kinetic energy of the cart in the position shown? [Neglect energy loss due to friction.] Given Formula Set-Up Solution Set-Up Solution (b) What is the speed of the cart at this position? Given Formula A 1.2-kilogram block and a 1.8-kilogram block are initially at rest on a frictionless, horizontal surface. When a compressed spring between the blocks is released, the 1.8kilogram block moves to the right at 2.0 meters per second, as shown. What is the speed of the 1.2-kilogram block after the spring is released? Given Formula Set-Up Solution A 3000-kg truck moving with a velocity of 10 m/s hits a 1000-kg parked car. The impact causes the 1000-kg car to be set in motion at 15 m/s. Assuming that momentum is conserved during the collision, determine the velocity of the truck immediately after the collision. Given Formula Set-Up Solution The circuit below contains a 60-V battery, a 17 Ω-bulb, a 12 Ω-bulb, and an 11 Ω-bulb. Calculate the circuit’s total resistance, current, and each bulb’s voltage drop. Voltage (volts) Current (amps) Resistance (ohms) The circuit below contains a 12-V battery wired in parallel to a 12 Ω-bulb and a 6 Ωbulb. Calculate the circuit’s total resistance, each bulb’s current, and each bulb’s voltage drop. Voltage (volts) Current (amps) Resistance (ohms) Calculate the (a) current running through each resistor, (b) total current (c) voltage across each resistor, and (d) total resistance Calculate the (a) current running through each resistor, (b) total current (c) voltage across each resistor, and (d) total resistance Where is the magnetic field the strongest in the picture below? Where is Earth’s magnetic pole located? What is the amplitude on the graph below? What is the period? Calculate the frequency. Which picture will result in constructive interference? Below are diagrams representing interactions between waves and boundaries. Identify each interaction by name. (reflection, diffraction, and refraction) 1. The wavelength for a wave is 0.5 meter, and its frequency is 40 hertz. (a) Calculate period. (b) What is the speed of this wave? Given Formula Set-Up Solution 2. The frequency of a wave is 50 hertz and the wavelength is 0.001 meter. (a) Calculate period. (b) What is the speed of this wave? Given Formula Set-Up Solution Use the graphic below to answer these questions. a. Which harmonic is shown in each of the strings below? b. Label the nodes and antinodes on each of the standing waves shown below. c. How many wavelengths does each standing wave contain? d. Determine the wavelength of each standing wave.