A ball of density 0.6 and volume 1 is floating in a pool of water. At equilibrium, what is the distance from the lowest point of the ball to the surface? (i.e., how far does the ball sink into the water?)
Hint: buyoant force, calculate the radius of the ball
A ball of density 0.6 and volume 1 is floating in a pool of water. At...
A ball of density 0.6 is floating in a large pool. What percentage of the ball's volume is under water?
Please help!
An inflated, spherical, beach ball with a radius of 0.3573[m] and average density of 10.65[kg/m'] is thrown into a pool of water, where it floats. The density of the water in the pool is 1000.0[kg/m']. What is the volume of the ball that is below the surface of the water, when it is floating in equilibrium? Express your answer in mi
The density of ice is 0.92g/cm3. An iceberg with a total volume of 300m3 is floating in pure water. Ignore the melting of ice, calculate (a) how much buoyant force is the water acting on the iceberg, and (b) how much volume of the iceberg (in m3, cubic meters) is submerged under water.
Consider the spot in which you can strike a pool ball with a cue
so that there is no friction between the ball and the surface.
14 h G FIG. 1: A physics student strikes a pool ball with a cue Note: the line from G points to the location of the center of mass, and P represents the point of contact between the ball and the table. Use only concepts from Ch 12 and before to solve the following:...
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A child playing in a swimming pool realizes that it is easy to pash a small inflated ball under the surface of the water whereas large ball requires a lot of force. The child happens to have a styrofoam ball (he shape of the ball will not distort when it is forced under the surface), which he forces under the surface of the water. If the child needs to supply 581 N to totally submerge the ball,calculate the...
Assume that a ball of charged particles has a uniformly distributed negative charge density except for a narrow radial tunnel through its center, from the surface on one side to the surface on the opposite side. Also assume that we can position a proton anywhere along the tunnel or outside the ball. Let FR be the magnitude of the electrostatic force on the proton when it is located at the ball's surface, at radius R. As a multiple of R,...
Assume that a ball of charged particles has a uniformly distributed negative charge density except for a narrow radial tunnel through its center, from the surface on one side to the surface on the opposite side. Also assume that we can position a proton anywhere along the tunnel or outside the ball. Let FR be the magnitude of the electrostatic force on the proton when it is located at the ball's surface, at radius R. As a multiple of R,...
4. Measured along the surface of the water, a rectangular swimming pool has a length of 20m. The pool is divided in half into a "shallow end" which is 0.8m deep and a deep end. the deep end results because at the exact halfway point of the pool the bottom slopes downward at an angle of 35 degrees until it reaches the far wall. a) find the pressure at both ends of the pool b) find the change in the...
co mulov ali to 120m7025 13-16. A wooden ball of mass m and volume V is held beneath the surface of water in a swimming pool. (a) What is the buoyant force acting on the ball?disa shida (b) How much force must be exerted to hold the ball down? (c) What would be the tension in a cord attached to the bottom of the pool holding the ball motionless beneath the surface? ISOT (d) Are your answers to (b) and...
9-9 A coal barge is floating in salt water. The water comes up to a place on the side of the barge called the water line. wood Given: The barge is rectangular, with a length of 10.0 m and width of 3.0 m. The density of salt water is 1.03 x 103 kg/m². The barge is loaded with coal and has a mass of 1.5x 104 kg. 1. 50 Find: (a) What is the buoyant force holding up the barge?...