The change
The smaller vehicle will encounter the larger velocity change.
A mass traverlling at a given speed/velocity. Do NOT confuse with 'Force'. Momentum = mass X veloicty Force = mass X acceleration. A car , of say mass 1 tonne, ( 1000 kg) travelling at 44 netres per sec has a momentym of = 1000 kg X 44 m/s = 44000 kg m/s The same vehicle accelerating from 0m/s ( standing start) to 44 m/s in 10 sec has a force of F = 1000 kg( 44 - 0 ) m/s / 10 s F = 1000 kg * 4.4 m/s^2 F = 4400 kg m/s^2 Note the different in the time(s) units.
You take a branch of K12, like WAVA or ORVA, don't you?
An apparent change in position of a star due to the movement of the Earth in it's orbit. The closer the star is there is a larger shift and the further the star is there is a smaller shift.
1 Celsius degree.A Celsius degree is 1/100 of the difference between the melting and boiling points of pure water whereas a degree Fahrenheit is 1/180 of the same range.
When a bug hits a windshield which is larger; the force of the bug hitting the windshield or the force of the windshield hitting the bug? Which is larger; the change in momentum of the bug or the change of momentum of the car? Explain your answers. When a bug hits a windshield which is larger; the force of the bug hitting the windshield or the force of the windshield hitting the bug? Which is larger; the change in momentum of the bug or the change of momentum of the car? Explain your answers.
The larger the momentum, the harder it will be to stop it. Thus, the larger the force needed to decelarate the object. Since momentum is directly proportional to the velocity, the larger the momentum, the larger the velocity.
Yes. The Formula for momentum is Momentum= Mass x Velocity. If the slower car has a larger mass, it will likely have a larger momentum.
Because of larger momentum. Larger bodies have larger momentum.
Yes, they would have a momentum. ^^
... different. Kinetic energy is proportional to the square of the speed, wherease momentum is proportional to the speed.
Among others, the following will be greater:* Its inertia * Its momentum (assuming the velocity doesn't change) * Its kinetic energy (assuming the velocity doesn't change) * The amount of particles (for the same material)
The conclusion for a lab about the conservation of linear momentum is exactly that. Linear momentum is conserved. Momentum p = m*v is a product of mass and velocity. The larger the mass or faster the velocity, the higher the momentum. It takes prolonged force to stop it. Also, if a closed system exists that is not affected by dissipative forces, the total momentum of the system will remain. In a collision between two objects, momentum is conserved.
Momentum is a vector and so obeys the laws of vector addition. These imply that the momentum of two two objects will be the sum of the individual momentum only if the objects are moving in the same direction.
(1) Decide on a direction that you will consider positive. (2) Calculate the momentum of the object that travels in the "positive" direction. (3) Calculate the momentum of the object that travels in the "negative" direction (the momentum should be negative). (4) Add both numbers algebraically.
Linear momentum is proportional to mass and velocity;p = mvThus, increase in mass will increase the linear momentumAngular momentum is similarly related:L = p.rL = mv.r
Inertia is the resistance of any mass to any change in its state of motion, it is the tendency of objects to keep moving in a straight line at constant velocity.The mass of a body determines the momentum (P) of the body at given velocity (v) ; it is a proportionality factor in the formula:P=mvThe factor (m) is referred to as inertial mass.Thus the greater the mass the larger the momentum.