The formula used to calculate the displacement of an object moving in a straight line is:
Displacement Final Position - Initial Position
The formula to calculate a ship's displacement is: Displacement = Weight of water displaced by the ship = Weight of the ship in air - Weight of the ship in water. This formula helps determine the volume of water that a ship displaces when it is floating in water.
The linear displacement formula is x xf - xi, where x represents the change in position, xf is the final position, and xi is the initial position of an object. This formula is used to calculate the distance and direction an object has moved from its starting point to its ending point.
The shaft work formula used to calculate the work done by a rotating shaft is: Work Torque x Angular Displacement.
Displacement is a physical quantity measured in units of length (meters), while joules and newtons are units of energy and force respectively. There is no formula to directly calculate displacement from joules and newtons. Displacement is determined by the motion and position of an object and can be calculated using equations of motion or geometry depending on the specific scenario.
Divide the net displacement by the time of travel.
water displacement
To find the displacement of a car, determine the straight-line distance between its initial and final positions, along with the direction. Displacement is a vector quantity, so it includes both magnitude and direction. You can calculate it using the formula: displacement = final position - initial position. If the car has traveled in a curved path, you would still measure the straight-line distance from the starting point to the endpoint to get the displacement.
The formula to calculate a ship's displacement is: Displacement = Weight of water displaced by the ship = Weight of the ship in air - Weight of the ship in water. This formula helps determine the volume of water that a ship displaces when it is floating in water.
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The linear displacement formula is x xf - xi, where x represents the change in position, xf is the final position, and xi is the initial position of an object. This formula is used to calculate the distance and direction an object has moved from its starting point to its ending point.
To calculate pipe displacement, you can use the formula: Displacement = π × (d/2)² × L, where d is the diameter of the pipe and L is the length of the pipe. This formula derives from the volume of a cylinder, as the pipe's cross-section is a circle. Make sure to use consistent units for diameter and length to obtain the displacement in cubic units.
The shaft work formula used to calculate the work done by a rotating shaft is: Work Torque x Angular Displacement.
Displacement is the shortest distance travelled . formula of Displacement= speed * time in meters
Displacement is a physical quantity measured in units of length (meters), while joules and newtons are units of energy and force respectively. There is no formula to directly calculate displacement from joules and newtons. Displacement is determined by the motion and position of an object and can be calculated using equations of motion or geometry depending on the specific scenario.
Divide the net displacement by the time of travel.
The liquid displacement formula is used to calculate the volume of an irregularly shaped object by measuring the volume of liquid it displaces when submerged in a container of liquid. The formula states that the volume of the object is equal to the difference in volume between the liquid level before and after submerging the object.
To solve distance and displacement problems effectively, use the formula distance speed x time and consider the direction of movement for displacement. Break down the problem into smaller steps, identify the given information, and choose the appropriate formula to calculate the distance or displacement. Practice with different scenarios to improve problem-solving skills.