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β 12y agoNot necessarily. Impulse depends on both the force applied and the time over which it acts. A smaller force acting for a longer time can produce the same impulse as a larger force acting for a shorter time.
Concave lenses can produce either smaller or larger images, depending on the object's distance from the lens and the characteristics of the lens itself. The image produced by a concave lens can be virtual, upright, and smaller, or it can be real, inverted, and larger.
A concave lens can produce images that are smaller than the object, whereas a convex lens can produce images that are larger than the object. This is due to the way light rays are refracted by the different shapes of the lenses.
Impulse is the product of force and the time over which the force is applied. Therefore, impulse is directly related to force, as a larger force applied over a longer time will result in a greater impulse. Mathematically, impulse is equal to the force multiplied by the change in time.
Impulse is the product of force and time, causing a change in momentum. When a force is applied to an object for a period of time, it generates an impulse that changes the object's momentum. A larger impulse results in a greater change in momentum.
No, it is not necessarily true that larger things have smaller volume compared to smaller things. The volume of an object is determined by its dimensions and can vary depending on the shape and size of the object. Larger things can have larger volumes than smaller things if their dimensions are proportionally larger.
I believe the answer is no. The impulse produced is also time related. Impulse force is measured as dp/dt. Therefore a smaller force produced for a very quick time could produce a larger impulse than a large force over a longer time.
Concave lenses can produce either smaller or larger images, depending on the object's distance from the lens and the characteristics of the lens itself. The image produced by a concave lens can be virtual, upright, and smaller, or it can be real, inverted, and larger.
yes, it can be smaller, equal or larger to the true value of the population varience.
No, never.
Cation is always smaller than corresponding neutral atom.
tangent will always be larger because its denominator is smaller than sine's.
A concave lens can produce images that are smaller than the object, whereas a convex lens can produce images that are larger than the object. This is due to the way light rays are refracted by the different shapes of the lenses.
Negative Numbers.
in degrees of intensity you have 2 go larger to smaller not smaller to larger
No. For 0 < x < 2, 2x is larger.
I'm not sure you phrased that correctly. You might be thinking of a negative number, which is said to be smaller when it's larger and larger when it's smaller.
0.21 is larger than 0.2