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How many resonance structures are there for CH3COO?
There are two possible resonance structures. These arise from the central carbon atom having a single covalent bond to one oxygen, and a double covalent bond to the other. The hydrogen-carbon bond is a single, and this doesn't change. The actual structure is a "blend" of the two possibilities, where the C-O bond length is equal; shorter than a single but longer than a double.
How does a 1 Tesla magnet work in magnetic resonance imaging (MRI) technology?
A 1 Tesla magnet in MRI technology creates a strong magnetic field that aligns the hydrogen atoms in the body. When radio waves are applied, the atoms emit signals that are used to create detailed images of the internal structures of the body.
When L is doubled and C is halved the resonance frequency of series tuned circuit becomes?
When L is doubled and C is halved in a series tuned circuit, the resonance frequency remains unchanged. This is because the resonance frequency of a series tuned circuit is determined by the formula f = 1 / (2π√(LC)), and doubling L and halving C cancels each other out in this formula, resulting in the same resonance frequency.
Is Jupiter in an orbital resonance with another body?
Yes, Jupiter is in a 2:1 orbital resonance with the planet Saturn. This means that for every two orbits Jupiter completes around the Sun, Saturn completes one orbit. This resonance helps stabilize the orbits of these two massive planets over long periods of time.
Is Natural frequency and Resonance of a Cantilever Beam will be same?
No, the natural frequency and resonance frequency of a cantilever beam are not necessarily the same. The natural frequency is the frequency at which a system oscillates without any external forces, while the resonance frequency is the frequency at which a system is most responsive to external forces. In a cantilever beam, the resonance frequency is typically higher than the natural frequency.
