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The center of gravity of an object is one factor in determining the stability of the object. The lower the center of gravity, the more stable the object. Other factors must be used for the prediction such as the shape of the base and overall structure.
No. Ice cubes will sink in pure alcohol, and will float lower in low-proof alcoholic beverages. This is because alcohol is less dense than ice.
At 32 degrees the ice cubes would need be of larger volume than the water. At lower temperatures they would need less mass to create an average water temperature that is frozen.
if you have a large complex object, like a jar full of different size coins, but know its center of mass then you can make a simplification of the jar to a point of mass at the center of gravity. A point is much simpler to physics on than a whole jar of different coins. in this case it doesn't matter what the object is made of.
by distributing the mass all over the body
To lower the center of gravity and thus increase stability. The further the wheels are apart, the less the risk that the vehicle will roll.
The center of gravity of an object is one factor in determining the stability of the object. The lower the center of gravity, the more stable the object. Other factors must be used for the prediction such as the shape of the base and overall structure.
There are 5 large buildings in rockefeller center. They are:(1) Metropolitan Opera (2) Radio City (3) The Observation Deck (4) Lower Plaza (5) The City in the City
keep them in a place 32 degrees or lower
No. Ice cubes will sink in pure alcohol, and will float lower in low-proof alcoholic beverages. This is because alcohol is less dense than ice.
That needn't always be. Faster cars are built lower to the ground. This is primarily to lower the center of gravity of the car. If the car is much higher above the ground, it's center of gravity would also be higher and that means the car would have lesser stability. Fast cars have to be stable even at high speeds and a slight nudge would be enough to throw the car off-balance if the ground clearance is high. Hence as a safety measure, fast and super cars are built lower to the ground.
Stability and lower requirements for hardware.
The center of buoyancy is the center of volume of displaced water of the hull (of a vessel). Gravity pulls down on a floating object. The fluid it is floating on pushes it up and it floats (assuming it is bouyant). Both gravity and bouyancy (the two forces at work) will have an effective center. The center of gravity is not required to be lower than the center of bouyancy and in general most ship's center of gravity is above the center of bouyancy. The ship will heel until the Metacenter (which is a function of the actual Waterplane area) is at or above the center of gravity. It might be advantageous to look at the center of gravity with respect to the center of bouyancy in ship hull stability and thereby get a better grasp of the particulars. Use the link below to our friends at Wikipedia and look at some diagrams concerning the stability of ships in terms of where the centers of bouyancy and gravity are in relation to each other.
The iron ore would have better stability. The iron ore is much more dense than the dry grass. As such it will not stack as high as the dry grass. That being the case, the ore will have a lower center of gravity.
The lower part of the large intestines.The lower part of the large intestines.
If the initial temperature of the lemonade is equal for both the water and the ice then the cubes would cool lemonade faster because they have a lower initial temperature.
The crankshaft position sensor is located at the lower left hand side of the crankshaft pulley. The crankshaft pulley is the large pulley located in the center lower portion of the front of the engine.