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Would a 34 kg ball moving at 8 ms have a greater or lower momentum than the 35 kg ball?
If both balls are moving at the same speed (velocity), the heavier (more massive) will have the greater momentum. Momentum is the product of mass and velocity. With identical velocities, the more massive object will have the greater momentum. If a 34 kg ball and a 35 kg ball are both moving at 8 m/s as asked, then the 34 kg ball will have less momentum than the 35 kg ball.
What else can I help you with?
Can an elephant have the same momentum as a golf Ball?
Momentum is the product of the mass and velocity of an object. Since a golf ball has a much lower mass than an elephant, it would have to have a much higher velocity to achieve the same momentum as an elephant. But it is definitely possible.
What substance melts the fastest water juice or milk?
I would guess water. Sugar and salt, which are in greater amount in the other liquids, lower the freezing point, making things freeze slower and conversely melt slower.
What if wheat is grown year after year in the same field?
The dirt would dry out and the crop yield would lower year after year.
Diffusion is when particles what and what by themselves?
diffusion is really the random movement of either liquid or gas molecules, which results in the particles seemingly moving from a high concentration to a lower concentration, until the area has an equal concentration
What is bernoullis principle?
The relationship between the velocity and pressure exerted by a moving liquid is described by the Bernoulli's principle: as the velocity of a fluid increases, the pressure exerted by that fluid decreases.Airplanes get a part of their lift by taking advantage of Bernoulli's principle. Race cars employ Bernoulli's principle to keep their rear wheels on the ground while traveling at high speeds.Bernoulli's principle, physical principle formulated by Daniel Bernoulli that states that as the speed of a moving fluid (liquid or gas) increases, the pressure within the fluid decreases. The phenomenon described by Bernoulli's principle has many practical applications; it is employed in the carburetor and the atomizer, in which air is the moving fluid, and in the aspirator, in which water is the moving fluid. In the first two devices air moving through a tube passes through a constriction, which causes an increase in speed and a corresponding reduction in pressure. As a result, liquid is forced up into the air stream (through a narrow tube that leads from the body of the liquid to the constriction) by the greater atmospheric pressure on the surface of the liquid. In the aspirator air is drawn into a stream of water as the water flows through a constriction. Bernoulli's principle can be explained in terms of the law of conservation of energy (see conservation laws, in physics). As a fluid moves from a wider pipe into a narrower pipe or a constriction, a corresponding volume must move a greater distance forward in the narrower pipe and thus have a greater speed. At the same time, the work done by corresponding volumes in the wider and narrower pipes will be expressed by the product of the pressure and the volume. Since the speed is greater in the narrower pipe, the kinetic energy of that volume is greater. Then, by the law of conservation of energy, this increase in kinetic energy must be balanced by a decrease in the pressure-volume product, or, since the volumes are equal, by a decrease in pressure.
How does speed effect momentum?
Speed directly affects momentum. Momentum is the product of an object's mass and its velocity, so the faster an object is moving, the higher its momentum will be. This means that an object moving at a higher speed will have greater momentum compared to the same object moving at a lower speed.
What are the key dimensions of momentum and how do they influence the motion of an object?
The key dimensions of momentum are mass and velocity. Momentum is the product of an object's mass and its velocity. The greater the mass or velocity of an object, the greater its momentum. Momentum influences the motion of an object by determining how difficult it is to stop or change the object's direction. Objects with higher momentum are harder to stop or change their course compared to objects with lower momentum.
When could a small object have the same momentum as a large object?
Yes. Momentum is based on mass and velocity, not physical size. 1 kg of styrofoam moving at 100 m/s has the same momentum as 1 kg of gold moving at 100 m/s, but the piece of styrofoam will be over 1000 times the size. Additionally, since the formula for momentum is mass times velocity, a 10 kg piece of gold moving at 10 m/s has the same momentum as a 1 kg piece of gold moving at 100 m/s. They both have a momentum of 100 kg-m/s.
What determines if one car has more momentum than another in a two-car collision?
The momentum of a car in a collision is determined by its mass and velocity. A car with greater mass or higher velocity will have more momentum than a car with less mass or lower velocity.
Why does a truck have more momentum than a sports car?
A truck typically has more momentum than a sports car because momentum is the product of mass and velocity. Trucks are generally much heavier than sports cars, which means they have a greater mass. Even if the sports car is traveling faster, the truck's larger mass can result in greater overall momentum. Therefore, in many scenarios, the truck's weight gives it an advantage in momentum despite potentially lower speed.
How can it be possible for two objects with different velocities to have the same momentum?
Two objects with different velocities can have the same momentum if one object has a greater mass and a lower velocity while the other object has a lower mass and a greater velocity. Because momentum is the product of mass and velocity, if the product of mass and velocity for each object is the same, their momenta will be equal.
How can an elephant have the same momentum as a golfball?
this question has the theoritical answer but it is not yet practically done. according to the theortical answer """"""""yes! elephant have the same momentum as a golf ball<<<<<<<<< Actually, elephants can have the same momentum as a golf ball. the equation for momentum is m x v2. m is mass, v is speed, and the two represents "speed squared". If the golf ball has a huge speed, then yes, it can have the same momentum as the elephant.
When a bullet is fired from a rifle does the bullet have a greater momentum and kinetic energy than the rifle?
Yes, when a bullet is fired from a rifle, the bullet typically has greater momentum and kinetic energy compared to the rifle. This is due to the bullet's higher velocity and lower mass compared to the rifle.
Where should a person experience the most air resistance?
A person would experience the most air resistance when moving at high speeds, such as when skydiving or driving a fast-moving vehicle. The resistance is greater in environments with higher air density, such as at lower altitudes.
Consider photons emitted from an ultraviolet lamp and a TV transmitter. Which is the greater wavelength Which is the greater momentum?
Good luck, Greater wavelength=TV. frequency= the number of wave cycles(peak, trough, peak) per time unit. The higher the frequency, the more times the wave cycles, and the shorter the wavelength. Greater Energy=Ultraviolet lamp. By Placks constant, E(energy) =h(planck's constant which is the energy of a photon divided by it's frequency) / f(the frequency of that photon). Planck's constant is almost irrelevant, so the greater the frequency, the greater the energy. Greater frequency=Ultraviolet lamp. Planck's constant and light spectrum. Greater Momentum= Ultraviolet lamp. Electron diffraction, Wavelength=h(planck's constant) / momentum. rearrange it as M=h/W. The greater the wavelength, the smaller the momentum, and visa versa.
Which change to the system would cause the freely moving piston to lower?
Decreasing the pressure inside the container or increasing the weight on top of the piston would cause the freely moving piston to lower.
Does it take more force to stop a moving truck or a moving car?
It is mainly due to the difference in the mass. Cycle has lesser mass compared to that of car. Hence momentum would be more for car as momentum p = m v. Rate of change of momentum is proportional to the force. So greater force will be required in case of stopping a car compared to stopping a cycle in the same interval of time moving with the same speed
