Perhaps you are referring to a first order reaction.
Kinetic energy is proportional to the square of the speed; use this fact to calculate the increase in speed (60% increase means an increase by a factor of 1.6). Momentum is proportional to the speed.
Pressure does not make any change in the speed of sound But temperature affects it. Velocity is proportional to the square root of kelvin temperature Humidity also affects the speed of sound. Higher the humidity more the speed
Yes. Say each enzyme molecule can do one reaction at a time. You will have more product with 100 enzymes than with 10 in the same amount of time. The rate (speed) of the reaction is the change in concentration of the product divided by the change in time.
A change in temperature will result in a change in the speed of sound. The frequency of a flute organ pipe is proportional to the speed of sound. For example, an increase in temperature will cause an increase in the speed of sound, and hence the pitch of the pipe will go up. A change of about 4oC will cause a change in the pipe's sound frequency of about 1%. That compares with a change of 6% between adjacent notes on the keyboard. Hence such a change would be significant.The same effect occurs for the woodwind and brass instruments.
by causeing larger sound waves through objects
molecular concentration
Frequency is inversely proportional to the wavelength.Their product is always the speed of the wave.
Frequency and wavelength are inversely proportional. Their product is always the speed of the wave;it doesn't change, regardless of the frequency/wavelength.
Frequency and wavelength of the same wave are inversely proportional. Their product is always the same number . . . the speed of the wave.
It is proportional if the velocity doesn't change over time.
Directly proportional. Greater speed - greater distance.
-- Wavelength and frequency are inversely proportional. -- When you multiply them together, the product is the speed of the wave.
Their product is always the same number . . . the speed of light . . . so they are inversely proportional.
Kinetic energy is proportional to the square of the speed. That means that with three times the speed you get nine times the energy.
Speed is directly proportional to energy in case of Einstein equation.
At any distance from the axis of rotation, the linear speed of an object is directly proportional to the rotational speed. If the linear speed increases, the rotational speed also increases.
Kinetic energy is proportional to the square of the speed. That means that with three times the speed you get nine times the energy.