___is a device that helps in accelerating the positively charged particles.
___is a device that helps in accelerating the positively charged particles.
A
Electrodes
B
Electrolytes
C
Cyclotron
D
Solenoid
Text Solution
AI Generated Solution
The correct Answer is:
To answer the question, "___ is a device that helps in accelerating the positively charged particles," we need to identify the correct option from the given choices: electrodes, electrolytes, cyclotron, and solenoid.
### Step-by-Step Solution:
1. **Understanding the Question**: The question asks for a device specifically designed to accelerate positively charged particles.
2. **Analyzing the Options**:
- **Electrodes**: These are conductive materials that allow current to enter or leave a medium. They do not specifically accelerate particles.
- **Electrolytes**: These are substances that produce an electrically conducting solution when dissolved in a solvent. They do not function as accelerators for charged particles.
- **Cyclotron**: This is a type of particle accelerator that uses a magnetic field and an electric field to accelerate charged particles, including positively charged ones.
- **Solenoid**: This is a coil of wire that generates a magnetic field when an electric current passes through it. It does not accelerate particles by itself.
3. **Identifying the Correct Answer**: Among the options, the cyclotron is specifically designed to accelerate charged particles, making it the correct answer.
4. **Final Answer**: The correct answer is **cyclotron**.
To answer the question, "___ is a device that helps in accelerating the positively charged particles," we need to identify the correct option from the given choices: electrodes, electrolytes, cyclotron, and solenoid.
### Step-by-Step Solution:
1. **Understanding the Question**: The question asks for a device specifically designed to accelerate positively charged particles.
2. **Analyzing the Options**:
- **Electrodes**: These are conductive materials that allow current to enter or leave a medium. They do not specifically accelerate particles.
...
Similar Questions
Explore conceptually related problems
Assertion : In Rutherford's alpha -particle scattering experiment, most of the alpha -particles were deflected by nearly 180^(@) . Reason : The positive charge of the atom is spread throughout the atom that repelled and deflected the positively charged alpha -particles.
Alpha particles are positively charged.
Which of the following is positively charged colloidal particle ?
The cyclotron is a device which is used to accelerate charged particles such as protons, deutrons, alpha particles, etc. to very high energy. The principle on which a cyclotron works is based on the fact that an electric field can accelerate a charged particle and a magnetic field can throw it into a circular orbit. A particle of charge +q experiences a force qE in an electric field E and this force is independent of velocity of the particle. The particle is accelerated in the direction of the magnetic field. On the other hand, a magnetic field at right angles to the direction of motion of the particle throws the particle in a circular orbit in which the particle revolves with a frequency that does not depend on its speed. A modest potential difference is used as a sources of electric field. If a charged particle is made to pass through this potential difference a number of times, it will acquire an enormous by large velocity and hence kinetic energy. Which of the following cannot be accelerated in a cyclotron?
The cyclotron is a device which is used to accelerate charged particles such as protons, deutrons, alpha particles, etc. to very high energy. The principle on which a cyclotron works is based on the fact that an electric field can accelerate a charged particle and a magnetic field can throw it into a circular orbit. A particle of charge +q experiences a force qE in an electric field E and this force is independent of velocity of the particle. The particle is accelerated in the direction of the magnetic field. On the other hand, a magnetic field at right angles to the direction of motion of the particle throws the particle in a circular orbit in which the particle revolves with a frequency that does not depend on its speed. A modest potential difference is used as a sources of electric field. If a charged particle is made to pass through this potential difference a number of times, it will acquire an enormous by large velocity and hence kinetic energy. Cyclotron is not suitable for accelerating
The cyclotron is a device which is used to accelerate charged particles such as protons, deutrons, alpha particles, etc. to very high energy. The principle on which a cyclotron works is based on the fact that an electric field can accelerate a charged particle and a magnetic field can throw it into a circular orbit. A particle of charge +q experiences a force qE in an electric field E and this force is independent of velocity of the particle. The particle is accelerated in the direction of the magnetic field. On the other hand, a magnetic field at right angles to the direction of motion of the particle throws the particle in a circular orbit in which the particle revolves with a frequency that does not depend on its speed. A modest potential difference is used as a sources of electric field. If a charged particle is made to pass through this potential difference a number of times, it will acquire an enormous by large velocity and hence kinetic energy. The working of a cyclotron is based on the fact that
If the magnetic field is parallel to the positive y-axis and the charged particle is moving along the positive x-axis (Fig.), which way would the Lorentz force be for (a) an electron (negative charge), (b) a proton (positive charge).
A charges particles particle is kept in equilibrium in the electric field between the plates of millikan oil drop experiment. If the direction of the electric field between the plates is reversed, then calculate acceleration of the charged particle.
Consider two positive point charges, each of magnitude q, placed on the y-axis at the points (0, a) and (0, -a). A positively charged particle of charge q' and mass m is displaced slightly from the origin in the direction of the positive x-axis. Speed of charge q' at infinity is
Consider two positive point charges, each of magnitude q, placed on the y-axis at the points (0, a) and (0, -a). A positively charged particle of charge q' and mass m is displaced slightly from the origin in the direction of the positive x-axis. At the origin, charge q' will be in
Recommended Questions
- is a device that helps in accelerating the positively charged particle...
Text Solution
|
- Alpha particles are positively charged.
Text Solution
|
- Cyclotron is a device used to accelerate charged particles but it does...
Text Solution
|
- चित्र की सहायता से किसी ऐसे उपकरण का वर्णन कीजिए जिसका उपयोग किसी आवेश...
Text Solution
|
- इलेक्ट्रॉन धनावेशित कण है ।
Text Solution
|
- The positively charged particles are
Text Solution
|
- साइक्लोट्रोन एक पैशी मशीन है जिसकी सहायता से आवेशित कणों को उच्च अर्जा...
Text Solution
|
- Assertion (A) : A cyclotron is a device which is sued to accelerate po...
Text Solution
|
- is a device comprsing both hardware and software.
Text Solution
|