0.5 kg m/s by the law of conservation of momentum
The pins gained the same amount of momentum that the Bowling ball lost, according to the law of conservation of momentum. So, the pins gained 0.5 kg meters per second of momentum in the opposite direction to the bowling ball's initial momentum.
The SI unit of Momentum is kilogram meters per second --> (kg*m)/s
The units for momentum are kilogram meters per second (kg m/s). Momentum is calculated by multiplying an object's mass (in kilograms) by its velocity (in meters per second).
The momentum of the boy is calculated by multiplying his mass by his velocity. Therefore, the momentum of the boy is 160 kilogram meters per second (40 kg x 4 m/s).
If you divide the meters by the seconds, you get the average speed. But that would be in meters / second, not in meters per second squared, which is a unit of acceleration.
The momentum of the baseball can be calculated using the formula: momentum = mass x velocity. Plugging in the values, we get momentum = 0.148 kg x 35 m/s = 5.18 kgยทm/s. So, the momentum of the baseball thrown toward home plate is 5.18 kgยทm/s.
momentum is velocity x mass. Its mass in kilograms is 22.6N/9.8 m/s/s= 2.306kg The velocity is 6.32 miles per second which is 10112 meters per second. The momentum is 2.306 x 10112 which=23318.272 kg meters per second.
4 kilograms
Approximately 1.05 Meters
It does. Momentum=mass* velocity. Momentum is kilogram meters per second
Angular momentum is defined as the cross product of a distance (from the axis of rotation) and a momentum, so you have to use units accordingly. In the SI, that would be meters x kilograms x meters / second, which you can simplify to meters squared x kilograms / second. This is equivalent to joules x seconds.
Momentum = (mass ) x (velocity) = (5) x (4) = 20 kg-meters/sec in the direction of the velocity.
The SI unit of Momentum is kilogram meters per second --> (kg*m)/s
meters and seconds
momentum = mass times velocity momentum = .145 x 10 = 1.45 kg-m/sec
If you divide the meters by the seconds, you get the average speed. But that would be in meters / second, not in meters per second squared, which is a unit of acceleration.
kilogram-meters per second (kg.m/s)
The base units of measure that make momentum include kilogram (kg) for mass and meters per second (m/s) for velocity. Momentum is calculated by multiplying mass and velocity, and its unit of measure is kilogram meters per second (kgโ m/s).