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What is the relationship between the torque of a pendulum and its oscillation frequency?
The relationship between the torque of a pendulum and its oscillation frequency is that the torque affects the period of the pendulum, which in turn influences the oscillation frequency. A higher torque will result in a shorter period and a higher oscillation frequency, while a lower torque will lead to a longer period and a lower oscillation frequency.
What is the modulus of rigidity of wire by using torsion pendulum?
The modulus of rigidity of a wire can be calculated using a torsion pendulum experiment by measuring the angular deflection of the wire under a known torque. By relating the torsional constant of the wire, the length of the wire, and the applied torque, the modulus of rigidity (also known as shear modulus) can be determined using the formula G = (π * r^4 * T) / (2 * L * θ), where G is the modulus of rigidity, r is the radius of the wire, T is the torque, L is the length of the wire, and θ is the angular deflection.
How can one determine how to find the net torque acting on an object?
To find the net torque acting on an object, you can calculate the torque produced by each individual force acting on the object and then add them up. Torque is calculated by multiplying the force applied to an object by the distance from the point of rotation. The net torque is the sum of all the torques acting on the object.
A torque acting on an object tends to produce what?
A torque acting on an object tends to produce rotation.
How do you calculate the net torque acting on an object?
To calculate the net torque acting on an object, you multiply the force applied to the object by the distance from the point of rotation. The formula is: Net Torque Force x Distance.
What is the relationship between the torque of a pendulum and its oscillation frequency?
The relationship between the torque of a pendulum and its oscillation frequency is that the torque affects the period of the pendulum, which in turn influences the oscillation frequency. A higher torque will result in a shorter period and a higher oscillation frequency, while a lower torque will lead to a longer period and a lower oscillation frequency.
What is the modulus of rigidity of wire by using torsion pendulum?
The modulus of rigidity of a wire can be calculated using a torsion pendulum experiment by measuring the angular deflection of the wire under a known torque. By relating the torsional constant of the wire, the length of the wire, and the applied torque, the modulus of rigidity (also known as shear modulus) can be determined using the formula G = (π * r^4 * T) / (2 * L * θ), where G is the modulus of rigidity, r is the radius of the wire, T is the torque, L is the length of the wire, and θ is the angular deflection.
How can one determine how to find the net torque acting on an object?
To find the net torque acting on an object, you can calculate the torque produced by each individual force acting on the object and then add them up. Torque is calculated by multiplying the force applied to an object by the distance from the point of rotation. The net torque is the sum of all the torques acting on the object.
What factors affects the pendulum?
There are a number of things that affect the pendulum and how it operates. Let's just start setting them down. The mass of the pendulum and its string, cable, rod, or whatever it is that it is suspended from. The length of the suspension cable or rod. The nature of the pivot point from which the suspension is tied, or, more specifically, the friction generated by the pivot. The air resistance to the pendulum and its suspension. The latitude at which it is operated (because a small amount of torque will be applied at anything more than 0o). The nature and loss of the driving mechanism for the continued movement of the pendulum. The temperature of the surrounds of the pendulum and its mechanism.
A torque acting on an object tends to produce what?
A torque acting on an object tends to produce rotation.
How do you calculate the net torque acting on an object?
To calculate the net torque acting on an object, you multiply the force applied to the object by the distance from the point of rotation. The formula is: Net Torque Force x Distance.
What is net torque?
Net torque is the magnitude and direction of torque that is left over when you add up the torques that are acting on an object.
What is the relationship between the net torque acting on an object and its resulting rotational motion?
The net torque acting on an object determines its resulting rotational motion. If the net torque is greater, the object will rotate faster, and if the net torque is smaller, the object will rotate slower.
Why does a bar magnet placed in S-N direction turn towards N-S direction when torque acting on it is zero?
If the bar magnet turned then there was a torque acting upon it. Torque is defined as a turning force or moment.
What is the torque value in in-lbs to turn a door knob?
Torque= length x force. Lenght is the distance to an object. Force must be perpendicularly acting on the object. In your question, you did not specify neither force and length of the knob. So I cannot give you a torque value. I believe the SI unit for torque is "Nm", assuming that you calculated your torque using all SI units. Then you have to convert Nm to pounds.
What is the net torque acting on an object in rotational equilibrium?
The net torque acting on an object in rotational equilibrium is zero. This means that the sum of all torques acting on the object is balanced, causing it to remain at rest or maintain a constant rotational speed.
What value would be indicated on the scale of a 20 inch torque wrench equipped with a 12 inch linear extension when the wrench is actually delivering 80 lb ft of torque?
M1 = M2 x L1 / L2M1 is the torque setting of the wrench.M2 is the actual torque applied to the nutL1 is the normal length of the wrenchL2 is the extended length of the wrench (Length of wrench + length of adapter)Remember... Torque = Force x Radius
