A small rock moves in water, and the force exerted on it by the water is...

A small rock moves in water, and the force exerted on it by the water is...

A small rock moves in water, and the force exerted on it by the water is given by equation f=kv f=kv . The terminal speed of the rock is measured and found to be 2.2 m/s m/s . The rock is projected upward at an initial speed of 5.7 m/s m/s You can ignore the buoyancy force on the rock

A rock with mass m = 2.60 kg falls from rest in a viscous medium. The...

A rock with mass m = 2.60 kg falls from rest in a viscous medium. The rock is acted on by a net constant downward force of F = 19.8 N (a combination of gravity and the buoyant force exerted by the medium) and by a fluid resistance force f=kv, where v is the speed in m/s and k = 2.69 N×s/m a)Find the initial acceleration a0. b) Find the acceleration when the speed is 3.50 m/s . c)Find the...

A 2.1 kg rock is released from rest at the surface of a pond 1.8 m...

A 2.1 kg rock is released from rest at the surface of a pond 1.8 m deep. As the rock falls, a constant upward force of 4.9 N is exerted on it by water resistance. Let y=0 be at the bottom of the pond. Part A Calculate the nonconservative work, Wnc , done by water resistance on the rock, the gravitational potential energy of the system, U , the kinetic energy of the rock, K , and the total mechanical...

A 2.5 kg rock is released from rest at the surface of a pond 1.8 m...

A 2.5 kg rock is released from rest at the surface of a pond 1.8 m deep. As the rock falls, a constant upward force of 4.4 N is exerted on it by water resistance. Let y=0 be at the bottom of the pond. Part A Calculate the nonconservative work, Wnc, done by water resistance on the rock, the gravitational potential energy of the system, U, the kinetic energy of the rock, K, and the total mechanical energy of the...

A 2.5 kg rock is released from rest at the surface of a pond 1.8 m...

A 2.5 kg rock is released from rest at the surface of a pond 1.8 m deep. As the rock falls, a constant upward force of 4.0 N is exerted on it by water resistance. Let y=0 be at the bottom of the pond. A.) Calculate the nonconservative work, Wnc, done by water resistance on the rock, the gravitational potential energy of the system, U, the kinetic energy of the rock, K, and the total mechanical energy of the system,...

A 1.8 kg rock is released from rest at the surface of a pond 1.8 mm...

A 1.8 kg rock is released from rest at the surface of a pond 1.8 mm deep. As the rock falls, a constant upward force of 5.0 N is exerted on it by water resistance. Let y=0 be at the bottom of the pond. Part G Calculate the kinetic energy of the rock, KK, when the depth of the rock below the water's surface is 0.50 mm. Express your answers using two significant figures. Part H Calculate the total mechanical...

We learned in mechanics that in the absence of air resistance, all objects near Earth’s surface...

We learned in mechanics that in the absence of air resistance, all objects near Earth’s surface fall with the same constant acceleration g = 9.8 m/s 2 . Yet as a student I once dropped a wadded-up tissue from the top of the Eiffel Tower and watched it take minutes to fall 300 m to Earth. (I retrieved it from the riverbank and put it in the poubelle.) In fluids, such as air or water, frictional drag forces grow larger...

Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in...

Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is 1.65 ✕ 105 Pa and the pipe radius is 2.80 cm. At the higher point located at y = 2.50 m, the pressure is 1.27 ✕ 105 Pa and the pipe radius is 1.30 cm. (a) Find the speed of flow in the lower section. m/s (b) Find the speed of flow in the upper section. m/s (c)...

21) A person carries a 25.0-N rock through the path shown in the figure, starting at...

21) A person carries a 25.0-N rock through the path shown in the figure, starting at point A and ending at point B. The total time from A to B is 1.50 min. How much work did gravity do on the rock between A and B? A) 625 J B) 20.0 J C) 275 J D) 75 J E) 0 J 22) A person carries a 2.00-N pebble through the path shown in the figure, starting at point A and...

PART A) Consider a sea lion swimming horizontally in 20C sea water. It is neutrally buoyant....

PART A) Consider a sea lion swimming horizontally in 20C sea water. It is neutrally buoyant. Its mass is 200kg, body surface area 2.1 m2, and drag coefficient Co= 0.0038. After accelerating from rest for a while (about half minute or so), the animal reaches a state of terminal velocity Uterm of 1.1 m/.s. Calculate the drag and the thrust forces at that moment. PART B) The sea lion studied in the previous question is now vertically diving. It is...