The traveling of a mass of material downslope is called mass wasting or mass movement. It refers to the movement of rocks, soil, and debris due to the force of gravity.

Yes, if it is possible for them to attend mass when travelling, then they should do so. It is only if they are somewhere where there is no mass available, that they can miss mass.

its mass increases as per Einstein's relativistic variation in mass...

To determine which of two vehicles traveling at the same velocity has greater momentum, you need to know the mass of each vehicle. Momentum is calculated by multiplying an object's mass by its velocity, so the vehicle with greater mass would have greater momentum if they are traveling at the same velocity.

13.

The one with greater mass.

Momentum = Ρ = m•v, m is mass in kg, and v is velocity in m/s. Both the semi and the linebacker are traveling at the same velocity. However, the mass of the semi is hundreds of times the mass of the linebacker. Therefore, the semi will have a much greater momentum than the linebacker.

The bicycle traveling at 15 m/s has more kinetic energy because kinetic energy is proportional to the square of the velocity. Since the mass is the same for both bicycles, the one traveling faster will have a greater kinetic energy.

Momentum is mass times velocity, if the velocity of the two are the same, the object with the greater mass will have proportionally greater momentum.

The vehicle with the greater mass will have the greater momentum, as momentum is dependent on both velocity and mass.

If a car and a truck are traveling at the same speed, the truck would have more momentum because it has a greater mass.

OK, I follow you so far. Now what's your question ?

No, the car and the train would not have the same momentum. Momentum is mass times velocity, so even if they are traveling at the same speed, the train would typically have a much larger mass than the car, meaning that their momentums would be different.

A train has more kinetic energy than a car traveling at the same speed because the train has significantly more mass. Kinetic energy is directly proportional to an object's mass - the more mass an object has, the more kinetic energy it will possess at a given speed.

Antarctica is the southern-most land mass on planet earth.

A car has higher momentum when traveling faster because momentum is the product of an object's mass and velocity. When a car is moving at a faster speed, it has a higher velocity, resulting in a greater momentum due to the increased product of mass and velocity.

You need to know their mass.

p=mv

momentum=Mass times Velocity

It doesn't have mass or take up space.

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Light is energy, and energy is matter, according to Einstein. Besides, it has been proved that light is affected by Gravity and, in order to do that, it has to have mass. Look again at Einstein and others, such as Lorentz... The photon has no mass, or does it? True, it seems to have no mass, but that is at rest state. Multiply that by infinity to account for mass increase and time dilation due to traveling at the speed of light, and what do you get? Something that looks like a particle, having mass, traveling at the speed of light.

speed and time

The mass of an object traveling at 90% the speed of light can be calculated using relativistic mass formula. The relativistic mass increases as the speed of the object approaches the speed of light. Given a rest mass of 100 kg, at 90% the speed of light, the mass would be significantly higher, but specifics would depend on the exact calculation.

Faster communication, traveling, war machines, airplanes, and what else oh yeah pollution.

Anything with greater mass (weight) than that car.

A person's mass would be greatest on the planet Jupiter, due to its larger gravitational force compared to other planets in our solar system.

The mass of the object can be calculated using the formula: mass = energy / (speed of light)^2. Substituting the given values, mass = 33,750 J / (30 m/s)^2 = 37.5 kg.

Momentum is equal to the product of mass and velocity, so if the mass is equal, the one with greater velocity has greater momentum.

According to the theory of relativity, as an object with mass approaches the speed of light, its momentum and energy increase significantly, but its mass remains constant. So, from the perspective of an observer, the object would appear to gain mass, but in its own frame of reference, it would not.

Only if you traveling to or from one of the family islands (off island). No if you are traveling internationally, the Bahamas is not a just a mass of land in the middle of the ocean, its a functioning COUNTRY with laws along with a government.

Traveling on a beam of light is not possible for objects with mass, as light moves at the fastest speed in the universe and cannot be caught up to. Traveling at the speed of light would also cause time dilation effects, where time would appear to stand still for the traveler.

The momentum of the truck can be calculated by multiplying its mass by its velocity. Therefore, the momentum of the truck would be 4500 kg * W m/s.

Because they are made up of photons, which have no rest mass. Having no rest mass, they are the only particle that is capable of traveling at the speed of light per the lorentz transformation.

Massless particles traveling at the speed of light include photons, the particles of light. They have no rest mass and always move at the speed of light in a vacuum according to the theory of special relativity.

60. K= 1/2mv^2 therefore when v is larger, there is more kinetic energy

The object with the most inertia would be the one with the most mass. Inertia is directly proportional to mass, so the object with the largest mass would have the most inertia when traveling at 5 meters per second.

An embolus (plural emboli) is a freely traveling foreign mass in the bloodstream. Emboli may be made of fat, air, or other materials.

Without the weight of the airsoft BB, it is impossible to answer this question as Force is affected by the mass of the projectile.

To determine which vehicle has the greater momentum, you need to know the mass of each vehicle. Momentum is defined as momentum = mass x velocity, so the vehicle with the greater mass will have the greater momentum. If the vehicles have the same mass, then they will have the same momentum.

It depends upon what units you are working in.

It depends on how much mass is involved.

A single electron traveling at near the speed of light will not hurt you - doubtful that you would even feel it. If it struck the retina of the eye you might see a flash of light.

A 300000kg granite block traveling at 1 meter per second is deadly.

Anything near your own bodily mass traveling at 2 m/s is approaching dangerous levels of momentum.

A heavier ball traveling at a higher speed would have the most momentum. Momentum is the product of an object's mass and its velocity.

The momentum of a baseball depends on its mass and velocity. In a typical scenario, a baseball with a mass of 0.145 kg traveling at a velocity of 90 mph would have a momentum of about 6.57 kg*m/s.

According to the theory of special relativity, the mass of an object can be zero if it is traveling at the speed of light. In this case, the object would have no rest mass but would still have energy due to its motion.

The bowling ball is harder to stop because it has a greater mass, and therefore a greater momentum. But the answer is that the bowling ball has a greater mass.

Both the car and bus traveling at 60 mph have kinetic energy. Kinetic energy is the energy an object possesses due to its motion, and it is directly proportional to the mass and speed of the object.

The kinetic energy of an object is given by the formula KE = 0.5 * m * v^2, where m is the mass and v is the velocity of the object. Since all three are traveling at the same velocity, the object with the largest mass (the dump truck) will have the highest kinetic energy, followed by the sports car, and then the bicycle.

The kinetic energy of an object is directly proportional to its mass and speed. Since the truck has a greater mass than the car but they are traveling at the same speed, the truck will have more kinetic energy than the car.

Weight is dependent on gravity, and mass is not.

The force of an object in motion, such as a car traveling at 30 mph, can be calculated using the formula Force = mass x acceleration. Without the mass of the car, we cannot determine the force in newtons.

Kinetic energy is half the mass times the square of the speed.

Joules = (14/2) x 32 = 7 x 9 = 63 joules.

The momentum of an object traveling with a certain velocity will increase if a load is added to it while in motion. This is because momentum is directly proportional to both mass and velocity, so adding mass will result in an increase in momentum as long as the velocity remains constant.

momentum is mass x velocity. If mass is 1 kg and velocity 1m/s then momentum is 1kgm/s