A frog in a small pod of negligible mass floats as shown. The radius of the...
A frog in a hemispherical pod finds that he floats without sinking into a sea of blue- green ooze having a density of 1.30 g/cm3 If the pool has a radius of 7.00 cm and a negligible mass, what is the mass of the frog? 934 g 400 g 200 g 1868 g 3339
A frog in a hemispherical pod finds that he floats without sinking into a sea of blue- green ooze having a density of 1.25 g/cm3 If the pool has a radius of 4.00 cm and a negligible mass, what is the mass of the frog? 138 g 126 g 62.8 g 168 g 335 g
what is the combined mass of the pod when the object is in it P-12.12. An object is placed in a hemispherical pod such that the pod just floats without sinking in a fluid of density 1.50 slam'. If the pod has a radius of 5.0 cm, what is the P-12.12. An object is placed in a hemispherical pod such that the pod just floats without sinking in a fluid of density 1.50 slam'. If the pod has a radius...
1. A cylinder of mass m, height h and radius r floats partially submerged in a liquid of density ρ. One third of the height of the cylinder is above the surface of the water. Johnny pushes the cylinder down by a small distance x<h/3, then he releases it from rest. A) prove that the resulting motion of the cylinder is a simple harmonic motion. B) Find the period of the small oscillations in terms of the given quantities (m,r,h,ρ)
A small ball of mass m is tied to a string and set rotating with negligible friction in a vertical circle of radius R with earth's gravity g acting. (a) What is the speed of the ball at the top of the circle so that the tension in the string vanishes there? (b) Given this, what is the speed of the ball at the bottom of the circle, and (c) what is the tension in the string at the bottom...
A small solid sphere of mass Mo, of radius Ro, and of uniform density Po is placed in a large bowl containing water. It floats and the level of the water in the dish is L. Given the information below, determine the possible effects on the water level L, (R-Rises, F-Falls, U-Unchanged), when that sphere is replaced by a new solid sphere of uniform density. Read it to me he new sphere has mass M = Mn and radius R...
A small solid sphere of mass M0, of radius R0, and of uniform density ρ0 is placed in a large bowl containing water. It floats and the level of the water in the dish is L. Given the information below, determine the possible effects on the water level L, (R-Rises, F-Falls, U-Unchanged, R or U, F or U, R or F or U), when that sphere is replaced by a new solid sphere of uniform density. The new sphere has...
A small solid sphere of mass Mo, of radius Ro, and of uniform density Po is placed in a large bowl containing water. It floats and the level of the water in the dish is L. Given the information below, determine the possible effects on the water level L, (R-Rises, F-Falls, U-Unchanged), when that sphere is replaced by a new solid sphere of uniform density. Read it to me new sphere has radius R > Ro and density p <...
A small solid sphere of mass Mo, of radius Ro, and of uniform density po is placed in a large bowl containing water. It floats and the level of the water in the dish is L. Given the information below, determine the possible effects on the water level L, (R-Rises, F-Falls, U-Unchanged), when that sphere is replaced by a new solid sphere of uniform density. Read it to me new sphere has radius R < Rọ and density p =...
1. Calculate the natural circular frequency on of the single mass system shown in the figure for small oscillations. The mass and friction of the pulley are negligible. Use the displacement, x, of mass m as the generalized coordinate. What is the tension in the cable during oscillation? (20%) 2k 1. Calculate the natural circular frequency on of the single mass system shown in the figure for small oscillations. The mass and friction of the pulley are negligible. Use the...