The elephant would have more momentum because of it has a greater mass and is going faster. The direction really doesn't matter
The elephant walking at 3 meters per second east has more momentum because momentum is defined as mass multiplied by velocity, and the elephant has much more mass than the mouse. The higher velocity of the elephant further contributes to its greater momentum compared to the mouse.
mouse will run faster as k.e is same ; object having less mass have high velocity
Yes the elephant will fall fasterr
Elephant Because has No Fur To dry
A mouse is faster than an elephant!
The unit for momentum is kilogram meters per second (kg m/s).
Momentum is a vector quantity, calculated as the product of an object's mass and velocity. Its SI unit is kilogram meters per second (kg m/s), which represents the combination of mass (kg) and velocity (m/s) in defining momentum. Momentum does not have a separate designated unit name because it is derived from fundamental SI units.
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 (kg⋅m/s).
The product of mass in kilograms and velocity in meters per second is the momentum of the object, measured in kilogram-meters per second (kg*m/s).
To convert running meters to square meters, you need the width of the material. Multiply the running meters by the width in meters to get the square meters. For example, if you have 10 running meters and the material is 1 meter wide, you would have 10 square meters (10 meters x 1 meter = 10 square meters).
The player who weighs 120 kg running at 4 meters per second has more momentum than the player who weighs 102 kg running at 5 meters per second. Momentum is calculated as mass multiplied by velocity, so the higher mass of the first player compensates for the lower velocity compared to the second player.
Momentum (p) = mass * velocity = 80 * 6 = 480 kg-m
The momentum of the dog can be calculated using the formula: momentum = mass × velocity. So, momentum = 12 kg × 8 m/s = 96 kg m/s.
The formula is...momentum=velocity x massSo...momentum= 4m/s x 100kgmomentum= 400 kg m/s
An elephant is 9 meters long
momentum = mass * velocity dolphin: 50kg*10.4m/s = 520 kg (m/s) elephant: 6300 kg * .11 m/s = 693 kg (m/s) The elephant has more momentum because of its large mass, and will be harder to stop/ change its course.
1000.0000 meters
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.
Because you were "running" at about 0.088 mph or 0.142 km/h. (In other words your weren't running at all. You were very slowly walking.)
Momentum = mass * velocity. We are told that his momentum is 80kgm/s, and that his mass is 80 kg, so we can say: 80kgm/s = 80 kg × V ∴ 1m/s= V So the velocity of the man is 1 meter per second west.
Momentum = (mass ) x (velocity) = (5) x (4) = 20 kg-meters/sec in the direction of the velocity.
50 meters............. -.-