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No, a cruise ship's mass and volume are not equal. Mass refers to the amount of matter present in the ship, while volume refers to the amount of space the ship occupies. The mass of the ship is influenced by factors such as the materials it is made of and the items on board, while the volume is the physical size of the ship.
The distribution of mass within a ship affects the rolling period by changing the ship's moment of inertia. A ship with more mass distributed towards the ends will have a higher moment of inertia and a longer rolling period, while a ship with mass more evenly distributed will have a lower moment of inertia and a shorter rolling period. This means that the distribution of mass can impact the stability and motion of the ship in response to waves and other external forces.
The momentum of a ship is the product of its mass and velocity. It is a vector quantity, meaning it has both magnitude and direction. The momentum of the ship can be calculated using the formula: momentum = mass x velocity.
The oil ship would have more momentum than the car because momentum is calculated as mass multiplied by velocity. Even though the car is moving faster, the oil ship's larger mass would result in greater momentum.
The basic reason that a ship floats is that the enclosed volume in the ship's hull is greater than the volume of water which has the same mass as the ship.
A ships mass is variable
No, a cruise ship's mass and volume are not equal. Mass refers to the amount of matter present in the ship, while volume refers to the amount of space the ship occupies. The mass of the ship is influenced by factors such as the materials it is made of and the items on board, while the volume is the physical size of the ship.
The distribution of mass within a ship affects the rolling period by changing the ship's moment of inertia. A ship with more mass distributed towards the ends will have a higher moment of inertia and a longer rolling period, while a ship with mass more evenly distributed will have a lower moment of inertia and a shorter rolling period. This means that the distribution of mass can impact the stability and motion of the ship in response to waves and other external forces.
The momentum of a ship is the product of its mass and velocity. It is a vector quantity, meaning it has both magnitude and direction. The momentum of the ship can be calculated using the formula: momentum = mass x velocity.
the mass of the titanic was 4672 ft 6in.
'Shore leave' is when a crew member of a ship (space ship in Mass Effect) is given leave to remain on land rather than attend duties on the ship.
getting the formula of MA mass x acceleration
The oil ship would have more momentum than the car because momentum is calculated as mass multiplied by velocity. Even though the car is moving faster, the oil ship's larger mass would result in greater momentum.
the ship requires the centre of mass to be as low possible and central so ballast is added. the higher it is, it is possible the ship may roll or be unstable. the centre of mass is always pulling down and the low friction of the water would allow the ship to roll.
The SSV Normandy in Mass Effect The Normandy SR-2 in Mass Effect 2 & 3
Displacement. The ship may weigh a lot, but it displaces its mass in water. It should not sink if designed right. Say Eureka.
Anything that has mass and occupies space is matter.