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If the axis of rotation is near the top of the container will the denser particles tend to move to the top or bottom of the container?
Denser particles in a rotating container will tend to move towards the bottom, away from the axis of rotation due to centrifugal force. This is because denser particles have more inertia and are less affected by the rotation.
What is the force in newtons needed to move a 1500 kg vehicle at an acceleration of 3 m?
The force required to move a 1500 kg vehicle with an acceleration of 3 m/s^2 can be calculated using Newton's second law, which states force equals mass times acceleration. Therefore, the force required would be 4500 Newtons (1500 kg * 3 m/s^2 = 4500 N).
Is it true that in a closed container increasing the temperature of a gas will decrease the force with which particles hit the walls of the container?
No, in a closed container, increasing the temperature of a gas will actually increase the force with which particles hit the walls of the container. This is because higher temperature leads to higher kinetic energy of the gas particles, causing them to move faster and collide with the walls with greater force.
What happens when you put a gas in a container?
When a gas is put in a container, it expands to fill the available space of the container, taking the shape of the container. The gas particles move freely within the container, colliding with each other and the walls of the container. The pressure inside the container increases as the gas particles exert force on the walls.
When particles in a closed container are heated they what?
When particles in a closed container are heated, they gain kinetic energy and move faster. This increased movement causes the particles to collide more frequently and with greater force against the container walls, which leads to an increase in pressure inside the container.
Why does pressure increase on the walls of a container as it's warmed?
As the temperature of a gas in a container increases, the molecules in the gas gain kinetic energy and move faster, leading to more frequent and forceful collisions with the walls of the container. This increased frequency and force of collisions result in higher pressure on the walls of the container.
How can I force narcissus bulbs to bloom indoors?
To force narcissus bulbs to bloom indoors, you can follow these steps: Choose healthy bulbs and a shallow container with good drainage. Plant the bulbs in a well-draining potting mix, leaving the tips exposed. Place the container in a cool, dark location for 12-16 weeks to allow roots to develop. Move the container to a cool, bright location and water regularly. Once shoots appear, move the container to a warmer, well-lit area to encourage blooming.
How is pressure made?
Pressure is simply the constant bombardment of atoms against a container's wall. The hotter the substance inside the container, the faster the atoms are moving, thereby making the pressure increase.
How does gas behave inside a close container?
They move Freely in the closed container.
Which is the strongest technique in Tae Kwon Do and why?
The strongest move in taekwondo is the pelvic thrust because its rotation and hip thrusting motion can cause up to 1500 lbs of force
Which change results in an increase in gas pressure in a sealed and flexible container?
Increasing the temperature of the gas will result in an increase in gas pressure in a sealed and flexible container, as the gas particles will move faster and collide more with the container walls, exerting a greater force per unit area.
What is the force in newtons needed to move a 1500-kg vehicle at an acceleration of 3 m?
Newton's second Law of motion states:ΣF = mathat is, the SUM of all forces acting on a body of mass "m" causes it to accelerate at an amount proportional to the strength of the force.So we want to know what force would be required to accelerate a 1500 kg mass at 3 m/s/s (I assume this is the unit you meant - also written sometimes as "m/s^2").Ignoring friction, air resistance and the like, we can assume that our theoretically applied force (the one we're looking for) is the only one acting on the vehicle, therefore ΣF is just F_applied, in this case.F_applied = 1500 kg * 3 m/s/sF_applied = 4500 NNote that a kg*m/s/s = N (by definition).
