Yes, torque can have a negative value when it causes a rotational force in the opposite direction.
No, it is not possible for the specific heat of a substance to have a negative value.
Yes, it is possible for flux to have a negative value. This occurs when the magnetic field and the area vector are in opposite directions, leading to a negative flux value.
Yes, it is possible for the tension force in a system to have a negative value. This can occur when the direction of the force is opposite to the direction assumed in the calculation, resulting in a negative value.
Yes, power can have a negative value when it represents a decrease in energy or influence.
Yes, it is possible for the percent difference to be negative when comparing two values. This occurs when the second value is greater than the first value, resulting in a negative percentage difference.
No, it is not possible for the specific heat of a substance to have a negative value.
Yes, it is possible for flux to have a negative value. This occurs when the magnetic field and the area vector are in opposite directions, leading to a negative flux value.
Yes, it is possible for the tension force in a system to have a negative value. This can occur when the direction of the force is opposite to the direction assumed in the calculation, resulting in a negative value.
Yes, power can have a negative value when it represents a decrease in energy or influence.
An absolute value can never be a negative. An absolute value is just the distance the # is from the zero...so again for it to be negative thats not possible
no.
Yes, it is possible for the percent difference to be negative when comparing two values. This occurs when the second value is greater than the first value, resulting in a negative percentage difference.
Yes, it is possible for the coefficient of friction to have a negative value in certain situations, such as when dealing with lubricated surfaces or materials with unique properties.
Yes, displacement can have a negative value if an object moves in the opposite direction of its initial position.
Yes, torque can have a negative value in physics. Torque is vector energy. Torque is the vector analogue of Work involving force (F) and displacement (D) vectors and the angle (FD). For example Work W = -F.D= -|FD|cos(FD) and Toque T = FxD =|FD|sin(FD). Torque can be negative dependent on the sine(FD). Work and torque is an example of the quaternion nature of physics; for example Quaternion energy E = FD = -F.D + FxD, the real energy is called work F.D and the vector energy is called torque, FxD.
Yes, electric flux can have a negative value if the electric field and the area vector have opposite directions.
No, the moment of inertia cannot have a negative value. It is always a non-negative quantity that represents an object's resistance to changes in its rotational motion.