An inflated basketball (V=0.014 m^3) is held 10 m underwater by a diver. What is the...

A diver wants to raise a sunken treasure chest fro a depth of 35m below the...

A diver wants to raise a sunken treasure chest fro a depth of 35m below the surface of a lake. The ambient pressure is only 0.62atm. The density of freshwater is 1000kg/m^3. a.) Calculate the absolute pressure at this depth in Pa, psi, and torr b.) The diver measures the sixe of the chest to be 60cm x 40cm x 30cm and the average chest density is 10000kg/m^3. Calculate the weight of the chest underwater. c.) The diver wants to...

Question: A diver underwater sees a dolphin swimming towards him with a speed of 11.637 m/s.11.637...

Question: A diver underwater sees a dolphin swimming towards him with a speed of 11.637 m/s.11.637 m/s. The diver gets excited and swims towards the dolphin with a speed of 15.839 m/s.15.839 m/s.The dolphin sees the diver and emits a call with a frequency of 25.40 kHz.25.40 kHz. Assume that the speed of sound through the water is 1470 m/s.1470 m/s. Part 1) What frequency does the diver detect coming from the dolphin? f=  kHz Part 2) The sound is reflected...

A plastic rod with a mass of m = 300g and a volume of V =...

A plastic rod with a mass of m = 300g and a volume of V = 200 cm^3 is held under fresh water (p = 1000 kg/m^3) and then released. A.) What is the mass of the water displaced by the rod? B.) What is the buoyant force acting on the rod? C.) What is the apparent weight of the rod? D.) Will the rod sink or float?

4. The diver in Problem 2, while underwater at a depth of 20.0 m, breathes from...

4. The diver in Problem 2, while underwater at a depth of 20.0 m, breathes from the tank so that the air entering the diver’s lungs is at the same pressure as that of the surrounding water. If each breath fills the diver’s lungs to a volume of 3.70 L, and the air he breathes warms to a temperature of 30.0OC, how many breaths can the diver take before the air remaining in the tank drops to a pressure of...

Archimedes’ Principle states: The buoyant force is equal to the weight of the fluid displaced. What...

Archimedes’ Principle states: The buoyant force is equal to the weight of the fluid displaced. What would the mass, volume, or weight of the displaced fluid have to be to equal a buoyant force of 328.3N? ball: m=1.8g, V=33.5cm^3, p=0.054, Fb=328.3N

A small ball with a charge of −7×10−6 C is traveling at a velocity of ⃗v=3×106...

A small ball with a charge of −7×10−6 C is traveling at a velocity of ⃗v=3×106 m s ̂ i . At a point in space, the ball travels through a magnetic field of ⃗B=4T ̂ i−5T ̂k . What is the magnetic force, F B , acting on the ball?

Density of water =1000kg/m^3 Conversion: 1000L =1m^3 A princess's ball falls down a well. The density...

Density of water =1000kg/m^3 Conversion: 1000L =1m^3 A princess's ball falls down a well. The density of the well water is a constant 1000 kg/m3. The ball has a 10 cm diameter. a. If the ball sinks, what is the buoyant force on the ball? b. If the ball floats, with half of it in and half out of the water, what is its density? c. If the ball weighs 350g, does it float or sink?

A spherical ball with a radius of 2.800×10-1 m is completely submerged in a fluid that...

A spherical ball with a radius of 2.800×10-1 m is completely submerged in a fluid that has a density of 1.134×103 kg/m3. What is the volume of the fluid displaced by the ball? (Since the ball is completely submerged, this is the same as the volume of the ball.) What is the weight of the fluid displaced by the ball? What is the buoyant force acting on the ball? (See Archimede's Principle in the text.)

A 55-kg diver stands at the end of a diving board located 10 m above the...

A 55-kg diver stands at the end of a diving board located 10 m above the water level. The diving board is held down at one end by an anchor bolt. The fulcrum is located at 1.4 m from the bolt and the total length of the board is 3.9 m. Draw a free body diagram showing the forces acting on the diver. Calculate the torque that she exerts on the board with respect to the fulcrum. Neglect the mass...

A ball with mass M = 5 kg is moving with speed V=10 m/s and collides...

A ball with mass M = 5 kg is moving with speed V=10 m/s and collides with another ball with mass m = 2.5 kg which is initially stationary. There is no other force such as gravity acting on the two balls. After the collision, both balls move at angle θ=30 degrees relative to initial direction of motion of the ball with mass M = 5 kg. a) What are the speeds of the two balls after the collision? b)...