Validating the Fun Toolkit - An instrument for measuring children's opinions of technology

The paper presents the Fun Toolkit (v3), a survey instrument that has been devised to assist researchers and developers to gather opinions about technology from children. In presenting the toolkit, the paper provides a reflective look at several studies where the toolkit has been validated and considers how the Fun Toolkit should be used as well as discussing how, and in what way, the instruments contained within it should be employed. This consideration of use is one of the novel contributions of the paper. The second major contribution is the discussion based around software appeal; in which the fit between the Fun Toolkit and usability and engagement is explored. The paper concludes that the Fun Toolkit is useful, that it can be used with some confidence to gather opinions from children and that it has the potential for use for other user experiences

Nature of low-lying electric dipole resonance excitations in Ge 74

Isospin properties of dipole excitations in 74 Ge are investigated using the (α , α ′ γ ) reaction and compared to (γ , γ ′ ) data. The results indicate that the dipole excitations in the energy region of 6 to 9 MeV adhere to the scenario of the recently found splitting of the region of dipole excitations into two separated parts: one at low energy, being populated by both isoscalar and isovector probes, and the other at high energy, excited only by the electromagnetic probe. Relativistic quasiparticle time blocking approximation (RQTBA) calculations show a reduction in the isoscalar E1 strength with an increase in excitation energy, which is consistent with the measurement

Yrast and non-yrast 2(+) states of Ce-134 and Nd-136 populated in relativistic Coulomb excitation

The first 2+ states in 134Ce and 136Nd and the second 2+ state in 136Nd were populated by Coulomb excitation at relativistic energies, and γ-rays were measured using the RISING setup at GSI. For 134Ce an indication of the excitation to the second 2+ state was observed. This experiment performed for the first time Coulomb excitation to second 2+ states with rare isotope beams at relativistic energies. For 136Nd the View the MathML sourceB(E2;21+→0+), View the MathML sourceB(E2;22+→0+), and View the MathML sourceB(E2;22+→21+) values relative to the previously known View the MathML sourceB(E2;21+→0+) value for 134Ce are determined as 81(10), 11(3) and 180(92) W.u., respectively. The results are discussed in the framework of geometrical models that indicate pronounced γ-softness in these nuclei.status: publishe