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The Queen Victoria Building (QVB) in Sydney, Australia, is important because of its historical significance as a Victorian-era building that has been beautifully preserved and restored. It is a popular tourist destination due to its stunning architecture and unique shopping experience, offering a mix of luxury boutiques and cafes in a grand setting. The QVB also serves as a landmark in Sydney's central business district.
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Why are carbon dioxide molecules important for metabolism in living things?
Carbon dioxide molecules are very important for photosynthesis
Is polonium important in life?
Polonium is not important for life; in fact, it is highly toxic to all living organisms. It is a radioactive element that can cause serious health effects, including cancer, if ingested or inhaled.
Is improvisation of apparatus important and why?
Yes, improvisation of apparatus is important because it allows for flexibility in responding to changing circumstances or environments. By being able to adapt and innovate with the resources available, individuals can ensure that tasks are completed efficiently and effectively.
What is an important factor in all chemical reactions?
An important factor in all chemical reactions is the type and arrangement of atoms involved. The way in which atoms interact with one another dictates the outcome of a chemical reaction.
Why was the discovery of radioactivity important?
The discovery of radioactivity was important because it led to the development of nuclear physics and important scientific breakthroughs, such as the understanding of atomic structure and the development of nuclear energy. It also paved the way for advancements in medicine, industry, and technology.
How has the QVB been maintained?
What the f@ck is a qvb!
How many people vist QVB per day?
this answer is 1,0000 yes
What is the airport code for União da Vitória Airport?
The airport code for União da Vitória Airport is QVB.
When a charge move in the same direction as the magnetic field lines the magnetic force is?
The magnetic force is F=qV.B = -qvB cos(VB).
What happens to a charged particle at rest in the magnetic field Does the particle accelerate?
The particle stays at rest a= f/m = 0; because force = qvB is zero if v=0.
When a charge moves in the same direction as the magnetic field lines the magnetic force is?
Perpendicular to both the current and the magnetic field.
What is the magnetic force on a proton that is moving at 5.2*10^ 7 m/s to the left through a magnetic field that is 2.4 T and pointing toward you The charge on a proton is 1.6 * 10 ^ - 19 Use F = qvB * sin theta?
2.0 x 10^-11 down
True or False .Forces on Earth are different from those elsewhere in the universe?
False. The forces acting on Earth, such as gravity and electromagnetism, are the same fundamental forces that exist throughout the universe. However, the strengths of these forces can vary depending on the mass and distance of objects involved.
Particle accelerators use electromagnets to change a direction in which charged particles travel How does a charged particle move within a magnetic field?
The full motion is F=qvB where v and and B are vectors and the full motion is F= -qv.B + qvxb = qvB(-cos(angle) + vxBsin(angle)) there will be a scalar parallel to the field and the vector motion perpendicular to the field. This scalar field and motion is the real cause of so-called trapped particles. The vector motion is that of a mass spectrograph. The charged particle moves in a circle when perpendicular to the magnetic field.
What is the magnitude of the force acting on the electron due to its interaction with Earth and acirc and 128 and 153s magnetic field?
The force acting on the electron due to its interaction with Earth's magnetic field can be calculated using the equation F = qvB, where q is the charge of the electron, v is its velocity, and B is the magnetic field strength. Without specific values for the velocity and charge, we cannot calculate the magnitude of the force.
How do you find acceleration due to magnetic field?
To find acceleration due to a magnetic field acting on a charged particle, you can use the equation ( F = qvB ), where ( F ) is the magnetic force, ( q ) is the charge of the particle, ( v ) is the velocity of the particle, and ( B ) is the magnetic field strength. Once you have calculated the magnetic force, you can use Newton's second law (( F = ma )) to find the acceleration (( a )) of the particle.
How do you calculate moving charges?
To calculate the motion of charges, you can use the equation for force on a charge in an electric or magnetic field: F = qE + qvB. Here, q is the charge of the particle, E is the electric field, v is the velocity of the particle, and B is the magnetic field. By knowing these values, you can determine the force acting on the charge and hence its motion.
