The figure below shows a uniform rod of length L=1.1 m and mass M (not required...
The figure below shows a uniform rod of length L=1.1 m and mass M (not required in answer) which is free to rotate about one end, and which is initially at rest at an angle 8=40° with respect to the horizontal. Find the linear) speed of the center of mass of the rod when it reaches the vertical position (=-90°). o Pin Select one: 6.19 m/s 4.01 m/s 4.37 m/s 3.64 m/s 1.82 m/s
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=7.2 m/s at the top of a frictionless hill of height h=4.9 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction µk. If the object travels a distance D=11.1 m before reaching a speed of v/2, what is the coefficient of kinetic friction µk? (use picture, but first question) Th figure below shows a mass m=1.0 kg...
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=7.2 m/s at the top of a frictionless hill of height h=3.5 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction Hk. If the object travels a distance D=10.9 m before reaching a speed of v/2, what is the coefficient of kinetic friction Mk? Select one: O 0.35 O 0.40 O 0.55 O 0.50 O 0.30
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=6.9 m/s at the top of a frictionless hill of height h=4.7 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction Uk. If the object travels a distance D=11.9 m before reaching a speed of v/2, what is the coefficient of kinetic friction Mk? D Select one: O 0.44 O 0.60 O 0.33 O 0.38 O 0.55
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=9.0 m/s at the top of a frictionless hill of height h=4.1 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction Hk. If the object travels a distance D=11.5m before reaching a speed of v/2, what is the coefficient of kinetic friction ik? Select one: 0.69 0.44 0.38 0.50 0.63
The figure below shows a mass m=1.0 kg which is initially moving with speed v=6.7 m/s at the top of a frictionless hill of height h=4.9 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction µk. If the object travels a distance D=10.8 m before reaching a speed of v/2, what is the coefficient of kinetic friction µk? ✓ -D h
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=6.8 m/s at the top of a frictionless hill of height h=3.7 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction µk. If the object travels a distance D=11.6 m before reaching a speed of v/2, what is the coefficient of kinetic friction µk? D— h
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=6.7 m/s at the top of a frictionless hill of height h=4.8 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction µk. If the object travels a distance D=10.5 m before reaching a speed of v/2, what is the coefficient of kinetic friction µk? D h
Th figure below shows a mass m=1.0 kg which is initially moving with speed v=6.9 m/s at the top of a frictionless hill of height h=4.7 m. It slides down the hill until it encounters a flat section with unknown coefficient of kinetic friction Uk. If the object travels a distance D=11.9 m before reaching a speed of v/2, what is the coefficient of kinetic friction uk? D Select one: O 0.44 O 0.60 O 0.33 O 0.38 O 0.55
The figure below shows a uniform rod of length L=1.3 m and mass M (not required in answer) which is free to rotate about one end, and which is initially at rest at an angle θ=40º with respect to the horizontal. Find the (linear) speed of the center of mass of the rod when it reaches the vertical position (θ=-90°).